Posts tagged with "new vehicle"

Toyota Camry hybrid nightshade via 360 magazine

Toyota Camry Nightshade

One of the longest-running nameplates in the auto industry, and with 20 straight years as America’s #1 selling midsize sedan, the 2023 Camry keeps things rolling with a refreshed Nightshade Special Edition. The Camry was among the first Toyota models to offer the distinctive Nightshade edition, a factory designer package without the customizer’s price. And, for 2023, Toyota offers three moods of Nightshade with the choice of Midnight Black, White and the new Reservoir Blue exterior colors.

The Nightshade Special Edition gives the 2023 Camry the look and stance of a premium sport sedan. The 2023 Camry Nightshade is available in SE grade front-wheel drive, all-wheel drive and hybrid models. The black front grille with Sport Mesh insert is borrowed from the Camry TRD model. The Nightshade also wears a black rear spoiler, mirror caps, exterior badges and, for 2023, adds black-trimmed headlights and taillights for a stronger dose of attitude.

The standout new design feature for the distinctive Nightshade is the 19-inch matte bronze aluminum alloy wheels. These rims give a look that really pops against any of the three body colors offered. The standard SE grade features carry over, including the sport-tuned suspension.

The Nightshade Edition is designed to appeal to drivers who enjoy a car that gets a little extra attention or for those who appreciate getting a designer look at a value price. That appeal is growing. The Nightshade package accounted for about 5% of Camry sales in 2021 and, for 2022, is on track to be about 7%.

A Camry for Everyone, and Up to 52 MPG

Currently in its eighth design generation, the Toyota Camry is also just one year shy of its 40th anniversary in America. A wide array of model choices, plus Camry’s alluring, coupe-inspired design and renowned Toyota quality and value, are a few reasons why Camry maintains leadership in the mid-size sedan category. All told, the 2023 Camry offers 18 different choices, offering a model for nearly every budget and taste. Notably, the Nightshade Edition is offered on all four-cylinder and hybrid models.

  • Five 4-cyl. FWD grades – LE, XLE, SE, SE Nightshade, XSE
  • Five 4-cyl. AWD grades – LE, XLE, SE, SE Nightshade, XSE
  • Five hybrid grades – LE, XLE, SE, SE Nightshade, XSE
  • Three V-6 grades – XLE, XSE and performance-tuned TRD

As fuel economy has recently zoomed to the top of many buyers’ priority lists, it is worth pointing out the outstanding fuel efficiency ratings across the Camry line. The LE Hybrid is the champ, with a manufacturer-estimated 51 MPG city/53 MPG highway/52 MPG combined rating. The LE FWD gas model is also a standout in its class, with manufacturer-estimated 28/39/32 MPG ratings.

Toyota Safety Sense 2.5+

The Camry has been a repeat IIHS TOP SAFETY PICK recipient. This is the organization’s highest rating and one that acknowledges the standard Toyota Safety Sense 2.5+ system that includes:

Foundation for Agility and Ride Comfort

Extensive use of high-tensile-strength steel in the TNGA-K platform along with innovative fastening methods, including laser screw welding and advanced adhesives, give Camry its rock-solid feeling on the road. Optimally tuned MacPherson-type strut front suspension and multi-link rear suspension endow the Camry with a ride-handling balance befitting luxury vehicles (SE, XSE and TRD grades also have sport-tuned springs and shocks).

Camry engineers prioritize a quiet ride, and the current-generation model improved on that by incorporating noise, vibration and harshness (NVH) countermeasures previously found exclusively on luxury models. Extensive sound-absorbing insulation includes foam/vibration-dampening materials throughout the vehicle, along with a thicker dash silencer mat across the entire firewall section. A special vibration-damping coating is applied over a wider area of the underfloor, and noise-proofing material encompasses more surface area under the headliner.

High-Style, High-Function Cabin

The Camry’s interior melds functionality, elegant styling and impeccable fit and finish. The dash design gives the driver a sporty cockpit-type feel while treating both the driver and the front passenger to expansive outward visibility.

Surfaces throughout the cabin employ soft-touch premium materials. Interior trim in all grades gives a sophisticated, higher-tech look with linear dark, wood inlay or patterned metal, depending on the model grade. Interior color choices, depending on exterior color, include Ash, Macadamia or Black. The sport-oriented XSE grade also offers an exclusive Cockpit Red interior for a touch of exotic sports car flavor.

Exquisite stitching on the front- and rear-seat surfaces, one example of the high level of craftsmanship, is found throughout the vehicle. The XLE grade features a luxurious-looking textured herringbone seat pattern. Ventilated front seats are available on the XLE and XSE.

The Camry relays information to the driver via three available displays. A floating 7- or 9-inch central touch-screen display combines audio and navigation. Customizable features and smart phone-like touch screen icons help ensure familiar and convenient operation.

For even greater functionality, Camry also offers an available 7-inch multi-information display within the instrument cluster. Available on XLE and XSE, a 10-inch color Head-Up Display (HUD) projects vital information, including speed and turn-by-turn navigation directions, onto the lower portion of the windshield.

The Camry LE features standard air conditioning, while all other grades step up to automatic dual-zone climate control. The system specific to the hybrid versions uses an electric compressor and humidity sensor. Rear seat vents come standard on the XLE and XSE Hybrid grades and are available as a package upgrade on the LE and SE.

High Power, Efficiency and Value

The 2023 Camry offers a choice of three powertrains: 2.5-liter Dynamic Force four-cylinder, 3.5-liter V-6 and next-generation Toyota Hybrid System (THS II). The Dynamic Force 2.5-liter engine is a strong but smooth operator, yielding an impressive 203 hp at 6,600 rpm and 184 lb.-ft. of peak torque at 5,000 rpm (206 hp and 186 lb.-ft. for XSE grade, which uses a dual-outlet exhaust). Most AWD grades have 202 hp, while the Camry XSE AWD grade has 205 hp with dual-outlet exhaust.

The four-cylinder engine uses a very high compression ratio (13:1) and Toyota’s innovative D-4S fuel injection, which employs both direct injection and additional port injectors. The engine is chock-full of Toyota’s most advanced technologies, including Dual VVT-i with VVT-iE (Variable Valve Timing intelligent system by Electric motor) and laser-clad valve seats. A variable cooling system, variable oil pump and a cooled exhaust gas recirculation (EGR) system all contribute to the engine’s high thermal efficiency and outstanding fuel economy ratings. Notably, regular-grade fuel is specified for all 2023 Camry models, helping to bolster value for the customer.

V-6 Performance at a High Level

The 2023 Toyota Camry is one of the few midsize sedans to still offer a V-6 engine and this one is a gem. It is standard for the TRD and is available for the XLE and XSE grades, as well.

The 24-valve, DOHC 3.5-liter engine is equipped with the D-4S direct injection system, along with a specially-developed VVT-iW (Variable Valve Timing-intelligent Wide) variable valve timing system for the intake, with VVT-i on the exhaust. The VVT-iW system can switch the engine to the Atkinson cycle, which reduces pumping losses by delayed closing of the intake valves. Output is outstanding, with 301 horsepower at 6,600 rpm and 267 lb.-ft. of peak torque at 4,700 rpm.

Direct Shift 8-speed Automatic

In all Camry gas grades, both the 2.5-liter engine and the 3.5-liter V-6 are teamed with the Direct Shift eight-speed automatic transmission that delivers satisfyingly crisp-yet-smooth quick-shifting to deliver an exemplary blend of performance and refinement. Close mid-range ratios improve passing performance, while the wide range of torque converter lock-up yields a more direct driving feel and contributes to fuel efficiency. Control logic optimizes precise matching of engine torque on downshifts for smoother transitions.

Toyota Camry via Paul Hogard for Toyora for use by 360 Magazine

Range Rover Sport

The New Range Rover Sport has made its global premiere with a dramatic world-first climb up a flooded dam spillway in Iceland.

The epic ascent saw New Range Rover Sport resist the surging torrent of water flowing down the ramp of the Karahnjukar Dam—the biggest of its kind in the world—at a rate of 750 tonnes per minute. A loss of traction risked plunging down the perilous 90m drop at the base of the spillway to the valley floor below.

The successful spillway ascent was screened for the first time at an exclusive launch event at Jaguar Land Rover’s Advanced Product Creation Centre at Gaydon, UK.

Official James Bond stunt driver Jessica Hawkins was behind the wheel as the New Range Rover Sport demonstrated its grip, traction, performance and composure, completing the latest in a series of challenges for Land Rover’s luxury performance SUV. Previous feats include a record-setting hill-climb at Pikes Peak, a first recorded crossing of the ‘Empty Quarter’ desert in the Arabian Peninsula and a first ascent of the 999 steps to Heaven’s Gate in China, in 2018.

Nick Collins, Executive Director Vehicle of Programs, Jaguar Land Rover, said: “Land Rover’s pioneering MLA-Flex architecture and the latest chassis systems come together to deliver the highest levels of dynamism we’ve ever seen on Range Rover Sport. Integrated Chassis Control governs the comprehensive suite of innovations, coordinating everything from the latest switchable-volume air suspension system to our Dynamic Response Pro electronic active roll control. The result is the most engaging and thrilling Range Rover Sport ever.”

The spillway climb was the final obstacle on a drive from the valley floor to the summit of the dam, taking in a flooded riverbed, long steep tunnels and the 40-degree rocky dam wall itself. The 294 m stretch of spillway had water furiously cascading down its 90-metre drop, to provide the ultimate test of traction and driver confidence.

New Range Rover Sport is based on Land Rover’s advanced, flexible Modular Longitudinal Architecture (MLA-Flex), which provides the perfect foundations for its superior dynamics and peerless refinement. Its line-up of powerful and efficient powertrains includes two six-cylinder extended range Electric Hybrid plug-ins, which provide a pure-electric driving range of up to 113km (70 miles) and CO2 emissions of as low as 18g/km1.

The new 530PS V8 Twin Turbo provides sports car performance, with 0-100km/h in as little as 4.5 seconds (0-60mph in 4.3 seconds) with Dynamic Launch engaged. Customers can also choose from powerful and efficient mild hybrid petrol and diesel Ingenium engines, while pure-electric propulsion will be available in 2024, as Land Rover continues its electrification journey.

New Range Rover Sport will be exclusively produced at the Solihull Manufacturing Facility in the UK, the historic home of Range Rover production, alongside New Range Rover.

Jaguar QK via Influence Associates for use by 360 Magazine

Thomas Kelham New European Range

Thornley Kelham has revealed the first entirely new project in its ‘European’ range of reimagined automotive legends: the Jaguar XK European, which builds on the success of their Lancia Aurelia Outlaw. Taking a derelict donor Jaguar XK as its base, the bespoke program allows customers to transform their car into ‘European’ specification, featuring an all-alloy lightweight body penned by McLaren P1 designer Paul Howse, and a full range of performance and comfort upgrades and enhancements.  

Most of the work is carried out in-house by Thornley Kelham, together with a small number of trusted and talented partners.  As well as its work in concours restoration, the in-house team of craftsmen is expert in race-winning classic motorsport engines, and numerous previous projects have involved bespoke enhancements from uprated suspension, steering and brakes, to conversion to fuel injection, and the design and execution of convenience features such as air-conditioning and high-end ICE. In the ‘European’ program, all that experience comes to bear to create the ultimate incarnation of a number of European sports cars of the golden era, including the Jaguar XK.

Howse’ vision celebrates the original beautifully aerodynamic lines in a way that remains true to the car’s original intentions, echoing the kind of work applied to the E-Type Lightweight. The first major task was to lower the roofline so that the proportions become more elegant and purposeful. The next was to add some curvature to the sides; all the body sections now have an acceleration to them which adds sculpture and muscle but also lightness. The arches are wider both at the front and more significantly at the rear with wider alloy wire wheels filling them out nicely, giving a ‘road racer ‘stance. The brightwork was also removed and instead a subtle crease was introduced down the bonnet which follows the split-screen into the roof and washes out over the roof, which is more smoothly integrated into the overall form, as are the rear arches. At the rear, the tail now sweeps up to create a more teardrop form. The rear lamps are nestled into the bodywork and the headlights have had the chrome bezels removed, cleaning up the appearance.

Inside, a completely redesigned dashboard and interior echo the original but with a dedication to modernizing and improving wherever possible. The dials are kept in a similar layout but are surrounded by a body color aluminum dashboard rather than a flat slab of walnut. This is enveloped in the finest leather hugging the dials, now positioned slightly higher. The seating position is a vast improvement over the original, dropping the H-point significantly so that you sit in the car rather than on it and ensuring that the lowered roof doesn’t affect the headroom. The seats themselves, whilst classic in design, offer more support than the original items. The door design is also more sophisticated and sporting in design, with a slim storage pocket and a completely new door release to not only improve the ergonomics but also the knee clearance for taller drivers.

Electric windows are added, as are electronic gauges and a discreet rollcage, while air-conditioning, power steering, Bluetooth connectivity and a number of in-car entertainment options ensure that every European will offer the thrill of a classic with the convenience and everyday drivability of a modern car. 

The Jaguar XK 3.8-litre straight-six engine—which produced around 160 -220 bhp in period—is thoroughly re-engineered, imbuing the ‘European’ specification with performance akin to a modern sports car. The all-alloy engine is equipped with direct injection, a bespoke camshaft and rebored cylinders for either 300hp or 340hp depending on specification.

To allow the new engine to perform more consistently at higher performance, there is an upgraded aluminum radiator with an oil cooler, as well as louvered bonnet and subtly redesigned vents and apertures. Power is delivered through a redesigned five-speed manual transmission. Each and every component has been carefully considered and thoughtfully designed for the best possible driving experience. 

The handling has been enhanced with reconfigured suspension all-round, employing double wishbones at the front, coilovers, tuned Bilstein shock absorbers and Eibach springs. It’s a far more modern package than the original car, which featured basic leaf springs on the rear axle. In fact, the rear axle set-up has been completely redesigned, and now incorporates a limited-slip differential. Four-piston vented disc brakes equip each wheel.  

From basket case Jaguar XK to European-specification Jaguar XK involves a process of over 5,000 hours, every stage driven by Thornley Kelham’s meticulous (and award-winning) attention to detail and applied across the entirety of the car from metalwork, paintwork (800 hours) to engineering, fine Connolly leather trimming and chassis set-up.  

For almost 15 years, the Thornley Kelham team have been masters of both authentic award-winning restoration work and bespoke, upgraded collector cars. From its 32,000sq/ft facility in the Cotswolds, UK, a talented team of over 30 has produced the Restoration of the Year-winning Bizzarrini 5300GT Strada, the London Concours ‘Best in Show’ Frazer-Nash BMW 328 and the Concorso d’Eleganza class-winning Lancia Astura Torpedo by Viotti.  

When customers require additional performance, they can turn to Thornley Kelham’s expert in-house engineering and engine-building team, who can imbue existing historic engines with incredible levels of performance. At the 2018 Le Mans Classic, for example, three cars—two Invicta S Types and a Lagonda—used engines prepared by Thornley Kelham engineers. One S Type produced double the output of the original engine, and the other the overall fastest nighttime speed of the race.   

To qualify as a member of the ‘European’ program, a project must bring together this world-class engine-building and chassis experience with decades of top-tier Concours-standard restoration expertise and a dedication to ultimate perfection.

In short, it must fulfill three key criteria: design, details and drive.  

Simon Thornley, co-founder of Thornley Kelham, said: “With our concours-winning restoration heritage and our years of experience in perfecting our bespoke Lancia Aurelia ‘Outlaw’ project, we have developed a team perfectly placed to design and engineer a car that reimagines automotive icons authentically, in intricate detail and with a fastidious attention to quality. The Jaguar XK European is, to our eyes, the most beautiful car yet in the restomod sector, backed up with expertise and experience in developing cars that aren’t just perfect in their finish, but thrilling to own and drive.

“The 1950s marked the start of a golden era in European car design. As the world emerged from the dark years of WW2, there was a quest—and a need—for light and joy; a passion to create and rebuild. In Europe, this resonated in the car industry. A new era began, driving exports, harnessing and refocussing the continent’s talents, and a new generation of sports cars emerged—in Britain the Jaguar XK120, Austin Healey 100, MGA and AC Ace, in Italy the Lancia Aurelia, Alfa Romeo 1900, models by Fiat, Ferrari and Maserati. German engineers developed the wonderful Porsche 356 followed by the majestic Mercedes 300SL. At Thornley Kelham, over a decade of working with, driving, and restoring these models to Concours-level standards, has honed our appreciation for these wonderful automobiles. Our deep experience of their beauty, engineering—and foibles—has also led to an evolution in our approach to them. And so, we have launched our ‘European’ division, our mission being to both pay tribute to their heritage, and to develop them to meet the demands of the 21st Century driver.” 

Development of the first Jaguar XK built to ‘European’ specification is already underway, with the first commission secured. Numbers will be strictly limited, with prices from £550,000 plus donor car depending on specification. 

Racing via Artwire for use by 360 Magazine

Danny Sullivan Celebration

The Italian luxury coachbuilder ARES Modena (which specializes in limited series and one-off supercars for select clients) invited legendary motorsports champion Danny Sullivan to a VIP celebration on February 3rd in the Miami Design District.

The reception was in honor of the nationally acclaimed artist Hubert Phipps who was one of Sullivan’s professional teammates.

The private event celebrated the art exhibition Hubert Phipps: Ascending, which ushered in the arrival of the ARES S1 supercar model for its North American premiere at the new ARES Design Miami showroom (the first ARES showroom in the U.S.).

Luminaries from the art world, including prominent collectors, curators, designers, news media, culture-lovers, and racecar industry leaders attended.

This reception was presented by the award-winning Italian wine Lambrusco Concerto by Medici Ermete winery (awarded for 13 consecutive years Tre Bicchieri Gambero Rosso, winner of “Best in Show Champion Trophy,” and awarded to the International Wine Challenge 2010 in London).

The paintings and sculptures by Phipps surrounded the supercar model in the showroom, creating a striking effect. A sculptor and painter, Hubert Phipps is also a pilot, coming up on his 50th anniversary as an aviator in the tradition of the Phipps family.

The exhibition featured several works born out of the artist’s love for acceleration and for aerodynamic forms. Watch the premiere video HERE of the ARES S1 supercar, and watch a video of the event featuring Danny Sullivan and Hubert Phipps HERE.

“I am honored to have been invited by ARES Miami for this collaboration and am thrilled that my friend Danny Sullivan was present at this special reception,” said Hubert Phipps. “ARES Modena is one of the world’s leading studios of high-performance design and stellar engineering, and this collaboration is igniting new inspirations in my artmaking.”

The title of this exhibition–Hubert Phipps: Ascending–reflects the growing national recognition of the artist, and Phipps’ history with racecars and aircraft. The exhibition debuted during the week of Art Basel in Miami. “Phipps’ background as a champion racecar driver and an aviator is clearly evident in his sleek, captivating artwork. These bold pieces by Phipps created a singular, powerful experience as they encircled our ARES S1 supercar model for its North American debut. The passion that goes into coachbuilding is very similar to producing a sculpture, each is a masterpiece that can be appreciated for its unique shape and design,” adds Dany Bahar, Co-Founder and CEO of ARES Modena. 

The new ARES S1 supercar model was flown from Italy to Miami and has never been shown in North America. The one-of-a-kind, automotive work of art is the centerpiece for this exhibition, surrounded by sculptures and artworks by Phipps that are seen as a perfect fit with the creative aesthetic behind ARES Modena’s singular success in automotive design.

Only 24 versions of the ARES S1 supercar will be created in the entire world, each tailor-made to the client’s desires and taste, making each design unique. The ARES S1’s dramatic low-profile is similar to racing prototypes from the ‘70s and ‘80s.

Hand-crafted in carbon fiber, the curvaceous wheel arches, with sculptured side skirts and forward sitting cockpit, give a sleek yet aggressive stance. The S1 is powered by a naturally aspirated V8 delivering power to the wheels via an 8-speed dual-clutch transmission. The interior combines the finest Alcantara and Napa leather that is quilted in specific areas.

These sculptures and artworks by Phipps rev up the space in the ARES Miami showroom, apace with the supercar’s electrifying spirit:  Sky Temple, Voyager, Arch, Lava Flow, Africa 1, and Africa 2, plus a maquette-sized version of Rocket from the private collection of real estate magnate Lawrence Moens. The exhibition also features Phipps’ signature paint pigment drawings: Momentum, Current, Impulse, and Rhythm. The special guest at this event was certified sommelier Mauro Maugliani (WSET Awarded), an Italian wine specialist for the Southeast USA and the Caribbean for Kobrand Corporation.

Morgan Super 3 via Morgan Motor Company for use by 360 Magazine

Morgan Super Three

The Morgan Motor Company unveiled Super 3, one of the most intriguing and distinctive vehicles the company has ever built. Super 3 has been designed from the ground up to offer new levels of character, thrill and adventure, principles that have defined Morgan’s three-wheeled product since the company was founded 113 years ago.

At the very heart of Super 3’s personality is its driving character. Primarily, a three-wheeled Morgan is a vehicle that entices you to get behind the wheel, offering a unique combination of mechanical feel, connection to the environment, and visual differentiation from anything else on the road. Few vehicles will engage their occupants like Super 3, which encourages owners to feel present in the craft of motoring and entices them to embark on incredible adventures.

As the company’s most configurable model to date, Super 3 offers an extensive list of options and accessories that allow owners to tailor their own experience. From adventure touring accessories to race-inspired liveries, Super 3 adopts multiple personalities to reflect the individuality of its owner. Three expressions of these personalities can be seen on the launch vehicles.

Like every Morgan, Super 3 will be built in Malvern, Worcestershire, at the company’s Pickersleigh Road factory. Skilled craftsmen and women have been handcrafting cars in these hallowed red brick buildings since 1914, just five years after HFS Morgan invented the first Morgan, known as ‘The Runabout‘.

Design

With Super 3, Morgan introduces a new design philosophy. In comparison with the outgoing 3 Wheeler, which was created in the style of the 1920s V-twin-engined three-wheelers, Super 3’s designers and engineers have drawn influences from the mid to late century. The jet age was an era in which there was a logical relationship between function and form, as the horizons of imagination were broadened.

Aerodynamic and mechanical requirements have heavily influenced the form and proportions of Super 3. This is most notable in the cast aluminum structures that provide the face of the vehicle, brace the engine and control the corner packages, while also directing air into the side-mounted cooling packs.

Two rectangular ‘diffuser plates’—-referred to as ‘sideblades’—intelligently manage cooling requirements while also presenting a platform for panniers, luggage racks and liveries.  

Super 3 is Morgan’s first clean-sheet design since the launch of the Aero 8 in 2000 and the company’s biggest visual departure since the 1962 Plus 4 Plus. Super 3 challenges the typical perceptions of Morgan design yet remains true to the company’s underlying principles and heritage.

The exact positioning of the engine—now car-derived and mounted in-board—within Super 3 is of crucial importance. Chosen in part due to its compact nature, the inline three-cylinder block sits precisely behind the front axle line, delivering optimum weight distribution and desirable proportion. The latter is a key principle for Morgan’s designers, who determine it vital that the body of the car is visually towed by its front wheels rather than sat on top of them. Super 3 has a mechanically intricate front end and exhibits linear geometry, which is intentionally contrasted against the trailing aerodynamic passenger compartment.

Honesty of design is one of Morgan’s key principles, and Super 3 embodies this wherever you look. Every feature—no matter how superficial it may appear—has an underlying mechanical purpose: the vehicle celebrates the marriage of design and engineering. Examples of this are prominent throughout Super 3. Features such as the metallic impressions in the footwell side panels, which stiffen the surface but are exposed as a design feature. Everything is honest, with reason.

The engine mount strategy is unique to Super 3. The Hartland Strut—named after the Morgan engineer that designed it—is the foremost mount and integral to the face of the car, while managing the torque reaction of the engine.

The front wheel design is by Morgan. The wheels’ positive offset allows for the longest possible suspension wishbones, with the brakes mounted far out. This maximizes ride quality, handling, and stability. The inside face of the wheel arches is closed-off, which works aerodynamically both to reduce wind noise and to help the flow of cooling air to the radiators behind them. To keep Super 3 looking proportionally correct, an all-new tire has been developed with Avon.

Platform

Underpinning the Morgan Super 3 is a bonded aluminum Superformed monocoque platform. Morgan’s expertise with bonded aluminum platforms dates back more than two decades, to the start of Aero 8 production, and was furthered with the CX-Generation platform used in the 2020 Plus Four and 2019 Plus Six. Super 3’s platform evolves that technology further still.

For the first time in Morgan history, the platform is a true monocoque, with stressed exterior ‘A-surfaces’ (as opposed to a unibody design found on most modern production cars, with bolt-on non-structural panels). Not only does this make for a lighter and more rigid chassis but also provides packaging benefits and gives more interior occupant space with no intrusion. Its rigidity not only benefits the car’s dynamic capability but also enhances safety, with Super 3 meeting the same exacting M1 and Reg. 12 frontal impact standards as Morgan’s Plus Four and Plus Six four-wheeled cars.

Super 3 continues Morgan’s long-standing use of Superform technology. The heating of aluminum to a superplastic state before vacuum forming  allows for intricate exterior shapes to be created with a lower material stress than pressing. While Superformed exterior panels are a proven technology in automotive production, this is the first time the process has been used to produce a structural vehicle platform.

Further displaying Morgan’s use of innovative construction techniques is the exposed structural front casting. As well as providing the rigidity of the car and mounting points for the suspension while performing a vital safety function, it also carries the attractive finish required of an A-surface. As a display of the car’s mechanical honesty, it provides a link to motorcycles, which use exposed castings in their frames.

Customisation

Super 3 is the most configurable Morgan to date. The company has curated an extensive list of more than 200 options and accessories, each one allowing owners to tailor their Super 3. A key project aim was to design and homologate all accessories and options alongside the development of the main vehicle. This not only ensures that those options work in total harmony with the vehicle but also removes the need to retrofit additional options once the vehicle has been built.

Feedback from owners of previous three-wheeled models has been instrumental in defining some of the key accessory themes. These themes—three of which can be witnessed on the vehicles demonstrated at launch—include adventure touring, contemporary design and classic motorsport.

Morgan has developed many of its own options and accessories and worked with several key partners to help curate the options available. These project partners include Malle London, Beeline, and Quad Lock.

The Name

Morgan has a long history of using the word ‘Super’ in its product names, dating back to Super Sports three-wheelers of the 1930s and more recently with four-wheeled cars such as the Aero SuperSports. In any deployment, the term has represented an enhanced level of performance and refinement and a moving forward of technology. Super 3 is the embodiment of this. A further link is the prominence of the term ‘super’ in the American lexicon of the 1950s and 1960s, a period of culture during which some of the early inspiration for Super 3 was anchored. Super also defines a new product family for the company, joining the ‘Plus’ range and setting a new design language for future models.

Toyota EVgo via Toyota Pressroom for use by 360 Magazine

Toyota bZ4X

When the 2023 Toyota bZ4X battery-electric SUV arrives at dealers later this year, it will come with more than just stylish looks and emissions-free utility. The all-new EV will also mark the start of a collaboration between Toyota Motor North America (Toyota) and EVgo to provide new bZ4X customers with on-the-go access to DC fast-charging stations. EVgo’s high-powered chargers provide EV drivers both flexibility and convenience to quickly charge at prime locations, such as frequently visited grocery stores, shopping centers, and central downtown areas, allowing drivers to travel and charge with minimal downtime and aligning with their break, shopping, eating or errand time.

Customers who purchase or lease a new 2023 Toyota bZ4X will get one year of unlimited complimentary charging at all EVgo-owned and operated public charging stations nationwide. Customers will be able to use the Toyota App on their mobile device to sign up for this offer, locate EVgo stations and initiate complimentary charging for their new bZ4X.

“The arrival of our all-electric bZ4X marks an important step in our commitment towards electrifying 70% of our fleet by 2030. We want our bZ4X customers to enjoy a high-quality ownership experience that is as seamless and worry-free as possible,” said Christopher Yang, Vice President, EV Charging Solutions, Toyota Motor North America. “Collaborating with EVgo, the nation’s largest public fast-charging network, will help provide bZ4X owners with access to a fast, reliable charge where and when they need it.”

With more than 800 DC fast charging locations and thousands of Level 2 charging stations, EVgo’s charging network serves over 68 metropolitan areas across 35 states. The EVgo network is powered by 100% renewable energy.

“EVgo is thrilled to collaborate with Toyota on bringing accessible and convenient fast-charging to new EV drivers with the bZ4X,” said Jonathan Levy, EVgo Chief Commercial Officer. “Toyota’s scale and EVgo’s track record of leadership in clean transportation will help make it easier for even more drivers to go electric.”

When it goes on sale in the spring of 2022, the 2023 Toyota bZ4X will offer consumers a battery-electric option that combines Toyota’s legendary reputation for quality and reliability with the performance and practicality they expect in a modern SUV.

“This is just the beginning of Toyota’s next-generation battery electric vehicle products that will join our existing portfolio of electrified vehicle options and will drive our progress toward carbon neutrality,” said Yang.

About Toyota

Toyota (NYSE:TM) has been a part of the cultural fabric in North America for more than 60 years and is committed to advancing sustainable, next-generation mobility through our Toyota and Lexus brands plus our 1,800 dealerships.

Toyota directly employs more than 48,000 in North America and has contributed world-class design, engineering, and assembly of nearly 43 million cars and trucks at our 13 manufacturing plants.  By 2025, the company’s 14th plant in North Carolina will begin to manufacture automotive batteries for electrified vehicles. Toyota has more electrified vehicles on the road than any other automaker, with electrified vehicles comprising more than a quarter of our 2021 North American sales.Through its Start Your Impossible campaign, Toyota highlights the way it partners with community, civic, academic, and governmental organizations to address our society’s most pressing mobility challenges. We believe that when people are free to move, anything is possible. For more information about Toyota, click HERE.

First Electric Flying Car

In the summer of 2019, Alauda Aeronautics and Airspeeder Founder, Matt Pearson outlined a vision to create the most exciting next-generation motorsport on the planet. In doing so, accelerating the arrival of the flying car mobility revolution we have been promised for generations. 

Since then, a dedicated team of engineers, technical and sports rights minds drawn from the most celebrated names in motorsport, performance automotive, and aviation have developed the world’s first and only fully functioning electric flying racing cars. 

World’s First Remotely Piloted Flying Car Races

These vehicles will soon take place in a series of groundbreaking races named the EXA Series. These historic first electric flying car Grand Prix will be driven by the world’s best Speeder pilots. They will race blade-to-blade at speeds of up to 300 km/h in locations where racing has never taken place before. This EXA Series is the permanent development formula for the forthcoming Airspeeder crewed electric flying car races. As such, the competitors that have been chosen to take part will embark upon an extraordinary development journey, ascending from elite remote pilots into true history makers as the world’s first competitors in the forthcoming Airspeeder crewed races. 

Ready to Race 

These next-generation racing machines publicly flew for the first time in the summer of 2021 through development flights that have taken place in secret locations across the deserts of South Australia. While the technical team worked tirelessly to engineer and validate these revolutionary flying vehicles, more than 1,500 individuals applied to become history makers and pioneers as the world’s first electric flying car racing pilots. Indeed, in June 2019, Matt Pearson stood at the Agility Prime gathering of the world’s elite civil and military pilots and announced an open invitation to pilots. This drew the widest talent pool ever assembled to a new form of motorsport. Thousands of individuals from across the world drawn from aviation, racing, performance automotive, UAM flying, and even eSports answered the call to make history as the world’s first electric flying car pilots. 

An exhaustive process of selection followed. Key attributes far beyond just competitive instincts were assessed in making the final choices. To be among this initial number, raw pilot skill is not enough. These individuals have been chosen because of their ability to work in lockstep with the greatest technical minds to help develop both an entirely new form of game-changing technology and the very fundamentals of a sport that promises to rapidly accelerate its development. These women and men are therefore not only elite-level competitors but also proved an extraordinary level of sensitivity to the technical requirements to test and refine a form of aerial motor-racing built from a blank sheet of paper. 

In that sense, they are the ultimate development racing drivers and will work as a vital arm of the Alauda Aeronautics engineering team to lead an approach to refine the dynamic and tactical nuances that will make the EXA and Airspeeder races the most compelling and progressive sporting entities in the world. Now, as these historic first remotely piloted Grand Prix races draw nearer, now is the time to reveal the first pilots that will plot a course to victory and a place in the history books of both the dawn of a new sport and a new, bold era in advanced air mobility. 

In Profile: The World’s First Electric Flying Car Racing Pilots 

Emily Dugan, Racing Driver: Emily is Australia’s most successful current racing driver. She has been recognized as a rising star woman in sport. She started in the NSW Excel Racing Series, but soon progressed to becoming the first female driver to race in the Australian V8 Touring Car Series. She has raced at Bathurst where she secured Fastest Lap in the 2016 Challenge Bathurst and has since completed in both the Australian Toyota 86 Racing Series and Kumho Super3 Series. Emily is a hands-on developer of racing cars and regularly works on the mechanical elements of the machines she drives. Emily has enjoyed much success on the track, scoring 12 wins, 33 podiums, and 2 poles in her career. 

Zephatali Walsh, RPAS Pilot: Zephatali is a born competitor. He developed his sporting instincts as a surfer before starting a career that has seen him ascend to being one of the most admired multi-blade pilots in the world. He sees a natural progression between the sports. “The feeling of flying fast with high precision leaves me ecstatic and in awe of experience. I want to surf the air.” He is no stranger to competitive racing in a cutting-edge sport. In 2020, Zephatali was drafted into the Drone Champions League where he competed with Raiden Racing. Like many prospective Airspeeder pilots, his background sits along with the requirements to understand the wider context of the racing he will take part in. Indeed, his path as a student of Environmental Science has developed a fascination with the role that racing plays in creating and accelerating a new clean-air mobility revolution. 

Fabio Tischler, FPV Pilot: Fabio is a world-renowned FPV drone pilot. His work has taken him around the world capturing footage from brands including Red Bull, Toyota, and Go Pro. Fabio’s path to racing is less than conventional. He gave up a corporate career and an education in finance to pursue his dream to unleash the potential of FPV drones to capture incredible content. Originally born and raised in Germany, he relocated to Sydney, Australia in 2015 to pursue a dream to fly drones professionally. He soon built a large social following through the creation of some of the most captivating film content in the business. This drew the attention of Alauda who invited him to become part of EXA.

Testing, Development, and Racing 

This first intake of pilots will undergo a rigorous process of training and development. This will include the logging of over 2000+ collective hours in the Alauda Aeronautics 6-DoF VR simulator, which will mimic an MK4 circuit race within an XR environment. Pilots will stress-test the Mk3 and Mk4 vehicles inside Unreal Engine to simulate racing. 

Through their training programs and the races, they will master the dynamics of the racing vehicle with the same thrust-to-weight ratio as an F16 fighter jet but with the added ability to perform rapid F1 car style hairpin turns. Through uncrewed EXA races and crewed Airspeeder races the latest augmented reality technology will be proven. This will seamlessly display the digital sky tracks that will define race courses in some of the most remote and visually arresting scenery in the world. 

A full suite of safety systems will also be pioneered. A systems-based approach to safety integrating attest LiDAR and RADAR systems in a suite of technologies termed the ‘Virtual Force Field’ will free the pilots to compete in blade-to-blade proximity without the risk of colliding.

Airspeeder Pilots via Airspeeder Press for use by 360 Magazine
Airspeeder Drone via Airspeeder press for use by 360 Magazine
Bugatti Electric Scooter via Extension PR for use by 360 Magazine

Bugatti × Bytech

Bugatti has partnered with industry-leading Bytech International to create a new scooter that was revealed for the first time at the CES 2022 expo held at the Las Vegas Convention Center on January 5, alongside prominent technology companies from around the world. “Bugatti is at the pinnacle of automotive excellence,” said Wiebke Stahl, Managing Director at Bugatti International. “Partnering with a company such as Bytech gives us an opportunity to expand our reach in the electric mobility space with an experienced partner and a product that can be enjoyed by consumers around the world.” 

Fabricated with the everyday consumer in mind, the electric scooter features a unique aerodynamic yet functional folding design that is available in three colors: Agile Blue, Silver, and Black. Weighing only 35lbs, the scooter is constructed with a magnesium alloy frame that allows for easy transport and has a large LED screen that displays speed, mode, battery life, and headlights. The electric scooter boasts a 700w motor capable of traversing any type of terrain with a 15° incline, 9″ run-flat tires, three speeds with cruise control, and a 36v/10ah battery with a range of approximately 22 miles, as well as over-heating, short circuit, over-current and overcharge protection. The battery is portable, easily removable, and uses a standard wall outlet to charge, only takes four hours.

Recognizing safety as a first and foremost concern, the electric scooter is equipped with cutting-edge technologies to ensure driver protection. For those purposes, this scooter features unique lighting functions. Its dual-turn signals are located on the ergonomic handle grips, as well as above the rear mudguard. Additionally, there are illuminated base lights on the sides of the deck, and a back “EB” monogram projection logo for enhanced artistry, style, and performance. The scooter also features a dual-braking system, a front left-hand brake lever, and a rear E-ABS electronic brake for added security and comfort.

“We are excited to partner with such an amazing brand that represents luxury and top quality in a growing industry yearning for enhanced design, while also incorporating the evolving needs of its customers,” said Eli Mizrahi, Executive Vice President at Bytech International. “By joining forces, we are able to expand our consumer base, which began with the debut of our new scooter at CES.”

The superior style, extra power, and performance of the scooter are designed to make it an alternative and comfortable mode of transportation for both work and play. The scooter has a weight capacity of up to 242lbs and a top speed of 18.5mph. Owners can enjoy three settings: Economy mode (9mph), City mode (12.5mph), and Sport mode (18.5mph).

Rimac Nevera via Rimac Automobili for use by 360 Magazine

Rimac Automobili Unveils the Nevera

Hypercar manufacturer and electric technology specialist Rimac Automobili unveiled the production version of the C_Two, now becoming the Nevera, an all-electric, 1,914hp, 258mph, $2.4m hypercar designed and engineered to unleash an unprecedented level of performance.

The Nevera is the production-ready iteration of the Rimac C_Two concept car, which was revealed at the International Geneva Motor Show in 2018. Since then, Rimac’s engineers have refined their new flagship on every level during an extensive development program, in the pursuit of the ultimate electric hypercar driving experience. With the majority of key components of the Nevera developed in-house at Rimac’s HQ in Croatia, all systems have been improved and enhanced since the initial prototypes to deliver on the ambitious performance targets set for at the beginning of the project in 2018.

Underlining his own commitment to the project, Mate Rimac will personally test and sign off each of the Neveras, before they are delivered to customers from the company’s current production site on the outskirts of Zagreb, Croatia.

Named after a force of nature

Fittingly, the Nevera bears a proud Croatian name and one that truly reflects the prodigious performance the car can unleash in the blink of an eye. The name given by the locals to a quick, unexpected and mighty Mediterranean storm that races across the open sea off Croatia, a nevera is extremely powerful and charged by lightning.

Appearing with exceptional speed and potency, Rimac’s next-generation hypercar shares the Nevera’s name and looks set to leave a similarly disruptive effect on the global hypercar market. And, like the force of nature it is named after, it is just as adept at transforming its character in an instant – from assured and comfortable grand tourer to ultra-focused performance machine.

Form follows function

Rimac favors lean and effective engineering at every stage, and that philosophy is exemplified in the form-follows-function nature of the Nevera’s timeless, elegant design. It is applied to every single detail, including Rimac’s signature ‘cravat’ feature, which is incorporated into its flanks.

“Since the 17th Century, the necktie has provided a symbol of Croatian strength and identity, and we first paid tribute to it on our Concept­_One hypercar in 2011,” reveals Rimac Director of Design, Adriano Mudri,And, like every element of the car’s design, it is there to provide a key function of the Nevera’s performance, serving as an air intake for the rear cooling systems.”

A comprehensive raft of changes to the Nevera’s bodywork, air diffusers and intakes has delivered a 34% improvement in aerodynamic efficiency over the early prototypes­. The profile of the bonnet, the shape of the pillars and the design of the diffusers, splitters and radiators have all been intensively analyzed and refined to improve airflow and downforce. Inlets and cooling channels have been painstakingly developed to increase the cooling efficiency of both the brake and powertrain systems, resulting in a 30% improvement at low speeds and a seven per cent enhancement at high speeds.

Rimac has also created numerous new innovative active aerodynamic elements to elevate the Nevera’s cooling, performance, stability, and efficiency. The front bonnet profile, underbody flap, rear diffuser and rear wing can each move independently, driven by complex algorithms that provide the optimum aerodynamic configuration for every driving situation. Switching from ‘high downforce’ to ‘low drag’ mode reduces aerodynamic drag by 17.5% to create a 0.3 coefficient of drag. Changing back into ‘high downforce’ mode increases downforce by 326%.

Despite incorporating a wealth of active aerodynamic elements, as well as many cameras and sensors that enable the Driver Coach feature, the Nevera’s body design remains a coherent graphic. It combines both the drama and beauty of a hypercar and appears simultaneously shaped by the air and forged with technology. The stunning butterfly doors elegantly carve away from the car’s wide sill as they open, creating a generous space for ease of entry and egress.

Lightweight, forged alloy wheels feature a unique aerodynamic design that channels cooling air to the Brembo carbon-ceramic braking system and ensures smooth airflow down the car’s flanks.

World’s most advanced monocoque construction

Nevera’s groundbreaking monocoque, developed by the former C_Two Chief Engineer Daniele Giachi, includes a bonded carbon roof, integrated structural battery pack and rear carbon subframe, forming the largest single carbon fibre piece in the entire automotive industry. Weighing less than 200kg and utilising 2200 carbon fibre plys and 222 aluminium inserts, the monocoque encases the car’s battery to form a compact yet incredibly strong structure with a torsional stiffness of 70.000Nm/degree. The level of unmatched strength and safety this provides has contributed to the Nevera meeting strict global homologation standards, and delivering the most rigid structure of any car ever made.

Driving the future

The key to the Nevera’s exceptional performance is Rimac’s pioneering electric powertrain. Every component of the Nevera’s electric powertrain has been exhaustively reworked since its inception to deliver more torque, greater performance and enhanced efficiency.

The unique H-shaped, liquid-cooled, 120kWh, 6960-cell battery was designed from scratch by Rimac and sits at the very heart of the Nevera. Capable of producing 1.4MW of power, the Lithium/Manganese/Nickel battery also forms an integral part of the car’s core, adding 37% structural stiffness to the carbon fibre monocoque. The battery’s optimum positioning low and central within the car’s floor contributes to an ultra-low centre of gravity. This helps create an excellent 48/52 front/rear weight distribution and the best possible handling balance.

Developments of the advanced battery cooling system have made it even more efficient since the introduction of the C_Two, enabling more power to be delivered for greater periods. Four bespoke surface-mounted permanent magnet motors drive the Nevera’s four wheels individually. Together, they enable 1914hp and 2360Nm of torque, which is triple the output of a ‘conventional–engined’ supercar. The front and rear wheels are each connected to a pair of single-speed gearboxes.

Capable of instantly summoning maximum torque from the first moment, the Nevera’s electric motors are 97% efficient–compared with 40% for the most effective internal combustion engines–and completely maintenance-free throughout their operating life.

Out of this world acceleration–beating the ambitious targets

With the ability to sprint to 60mph in 1.85 seconds and continue the acceleration all the way to a 258mph top speed, the Nevera opens up a new dimension in hypercar performance. Accelerating from rest to 100 mph requires just 4.3 seconds and it maintains its eye-widening acceleration throughout a full-throttle cycle, achieving 186mph from rest in 9,3 seconds, shredding a whole 2,5 seconds from the initial targets. Finally, it achieves a record-breaking 8,6 seconds quarter-mile time.

Perfect power delivery, impeccable stopping power

Rimac’s All-Wheel Torque Vectoring 2 (R-AWTV 2) system replaces traditional Electronic Stability Program and Traction Control systems to further bolster grip and traction. Meanwhile, the Nevera’s R-AWTV 2 system enables infinitely variable dynamic responses to road and track conditions by calibrating the amount of torque supplied to each wheel. R-AWTV 2 calculates the precise level of torque to channel through each wheel for ultimate stability and exceptional agility. Both predictive and responsive, R-AWTV reads the road and makes over 100 calculations per second to tailor the level of torque to achieve the desired driving style.

The Nevera is also equipped with cutting-edge braking technology. A complex electro-hyrdaulic brake booster with brake pedal feel simulator distributes the braking force between the friction brakes and electric powertrain, depending on the battery, powertrain and brake state. For instance–it dissipates kinetic energy through the friction brakes if the battery is close to its thermal limits, or activates more regenerative braking in case the friction brakes are hot. All those transitions should remain in the background, not noticeable to the driver. This enables the Nevera to make the highest use of regenerative braking of any other car on the market now. In addition to a maximum range-enhancing regenerative braking of 300 kW provided by the electric motors, substantial stopping power comes from 15 inch Brembo CCMR carbon-ceramic brake discs and six-piston callipers. Combined they provide consistent, fade-free and exceptionally powerful braking, even when the car is subjected to extreme forces on the track.

Relaxed grand tourer with track attack precision

Double wishbone suspension with electronically controlled dampers and active ride height adjustment provides a combination of a smooth and comfortable ride, exemplary body control and ultra-agile handling.

Further emphasizing Rimac’s technology-first approach, the Nevera utilises the very latest electric power steering with steer-by-wire function, enabling adaptive driver-feedback, depending on the drive mode. Additionally, it works as a drive-by-wire system when in “Driver Coach” mode to demonstrate optimum racing lines and vehicle control to the driver.

Rimac’s versatile and responsive R-AWTV 2 system enables drivetrain calibration for the Nevera to facilitate any driving style through seven different driving modes.

For a truly engaging drive on the road, “SPORT” mode sharpens the response of the throttle, brakes, suspension and steering, while “DRIFT” mode supplies more torque to the rear wheels to accentuate oversteer and help hold the car in a controlled power slide on the track. “COMFORT” mode strikes a perfect balance between a relaxing ride, efficiency and driving pleasure, while “RANGE” mode enables the Nevera to achieve maximum mileage from each battery charge. In expert hands, “TRACK” mode sets the Nevera to full, unrestrained configuration to help drivers exploit the car’s full potential. Finally, two “CUSTOM” modes enable drivers to access their personal, pre-selected performance characteristics.

Minimalist design cabin, maximum comfort and control

With space for two occupants in full race regalia and their luggage, Nevera is as much a capable grand tourer as it is a performance hypercar. Digital screens soak up needless toggles and switches, leaving only essential tactile controls, giving more space to enjoy Nevera’s carefully designed interior.

The cockpit features a trio of high-definition TFT screens, which present as much, or as little, information as the user requires. Configured for both track driving and comfort, the layout of the cockpit is divided into two zones. The focus of the top segment is entirely placed on driving pleasure and performance, while the lower part houses the infotainment system, comfort controls and driving data.

Tactile billet aluminum rotary controls and switches, including three displays with rotating control, provide a resolutely analogue feel, tailored to enable the driver to utilize the cutting-edge digital technology in an even more engaging manner. From the cockpit, the driver can monitor every aspect of the car’s performance with real-time telemetry, downloadable to a laptop or smartphone for later review.