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Mazda MX-5 Development Story – Video Blog

tempLightweight sports cars first appeared in the years following the Second World War, but it wasn’t until the 1960s that small, affordable and fun roadsters reached the height of their popularity. By fitting engines from standard sedans into compact and light vehicle bodies, automakers could provide exciting performance and agile handling that was also affordable. The lightweight sports car allowed average Europeans to enjoy exhilarating driving on a daily basis.
tempThe 1970s saw the introduction of much stricter safety and emissions regulations in the US, the world’s largest automobile market. Since most of the lightweight sports cars were open top, they lacked the structural integrity provided by a roof. To meet the regulations, manufacturers instead added large shock absorbing bumpers or extra steel to increase body rigidity, which made the cars much heavier. In order to meet the new emissions regulations, many companies resorted to reducing the engine output. This was a tough period for the lightweight sports car, and as people’s expectations began to diminish, the roadsters disappeared from the market one after another.

In the early 1980s, with the lightweight sports car segment all but extinct, Mazda’s engineers conceived a dream for a modern compact two-seater. One engineer, who would go on to lead the development of the first generation Mazda Miata MX-5, was convinced that Mazda needed a unique product to help it stand out from the other Japanese brands, and passionately appealed to management to build a lightweight roadster.
Eventually, despite significant resistance from some of Mazda’s senior executives, the visionary engineer’s passion convinced the planning department in the R&D Division to take the first step.
Three alternative drive systems
Many different ideas were submitted in the planning phase. Layout proposals included front-wheel drive (FWD), rear-wheel drive (RWD) and even a mid-engine setup. The development team pored over early design sketches, and every aspect was discussed at great length, even as to whether it would be a convertible or a coupe.
Most small sports cars in the 1960s had an engine at the front with rear-wheel drive. By the 1970s, many mass produced vehicles had been switched to front-wheel drive (FWD). Although it went against the traditional concept of a sports car, this layout was much easier to build and provided greater flexibility in terms of engine and drivetrain combinations. The mid-engine layout, in which the engine is positioned near the center of the car and power is transmitted through the rear, shares the same advantages because the FWD engine and drivetrain can easily be carried over.
In order to minimize development and production costs, the best approach would have been to replace the body of a compact FWD car with a new sports car body, or perhaps reposition the engine and drivetrain for a mid-engine layout. Both options would allow the retail price to be kept low, and so provide the best chance for Mazda to bring back the lightweight sports car.
However, the agile handling and a linear driving feel that had made the original lightweight sports cars famous would be almost impossible to achieve without a RWD layout. For Mazda, this meant an entirely new powertrain would have to be developed, which would require a sizeable investment. In the end, despite the added cost, the engineers agreed that they had no choice but to pursue the ideals of a lightweight sports car.

Once the combination of RWD layout and an open-top body had been agreed on, the engineers coined the development concept, “Jinba Ittai” (which means “rider and horse as one”) to express the type of fun-to-drive roadster they intended to build. “Jinba Ittai” continues to symbolize each new generation of MX-5 and ensures that it will always remain true to Mazda’s original dream of a lightweight sports car.

Mazda’s MX-5 roadster is not an imitation of the lightweight sports cars of the 1960s. It is a purely Japanese car that was designed to achieve global appeal. The Japanese phrase “Jinba Ittai” (which means ”rider and horse as one) expresses the essence of Japanese culture that is incorporated in the vehicle.
The development team focused on stripping off everything that was not necessary while maximizing the character of the vehicle. To control unnecessary weight gain, the engineers restrained their desire for greater engine output and more features. While pushing the limits of cost reductions, they were never hesitant to take bold engineering steps and break new ground in the name of “Jinba Ittai.”
Examples of this include the aluminum hood, which lowers the center of gravity and improves steering stability and accuracy. Also, a standard cast iron exhaust pipe was rejected in favor of a stainless steel version in order to achieve an ideal exhaust gas flow. It was clear from the start that this sports car was going to be different.
Demand for improved safety finally drove the original lightweight sports cars of the 1970s to extinction. Achieving the required safety performance while keeping vehicle weight down was just as challenging for the MX-5’s developers. Computer analysis, which had been nonexistent in the 1970s, played a key role in the revival of the lightweight sports car. It is no coincidence that the MX-5 program manager was an expert in vehicle body engineering. By fully utilizing the latest computer analysis technologies, the team managed to build a light and rigid body which met modern safety requirements.
As Japan has a rainy season each year, there are relatively few convertibles on the roads. However, Mazda’s development team chose to remain faithful to the “Jinba Ittai” concept and purposefully picked a manually operated soft top. They also rejected proposals for a 2+2 seat layout in order to concentrate on a pure two-seat roadster. These and other difficult decisions ensured the MX-5 would be as light as possible.
A linear driving feel

The team narrowed down the possible engine choices to a 4-cylinder 16-valve 1.6-liter inline DOHC engine. They decided to stick to natural aspiration, without any turbo or supercharger. The MX-5’s Jinba Ittai-infused fun-to-drive character was realized by neither a surprisingly high output nor advanced engine control technologies.

While keeping mechanical losses and engine resistance as low as possible, the team achieved a smooth engine power curve and linear acceleration up to the rev limit; characteristics that provide an exhilarating experience for the driver.

In order to ensure adequate feedback when changing gears, engineers created a “powerplant frame” to rigidly connect the transmission and differential. It significantly enhanced the performance feel and became an essential technical element in the evolution of the MX-5.

For the suspension system, the development team chose a double wishbone setup for all four wheels, due to its superior dynamic characteristics. Despite the extra complexity this involved, the engineers never thought of compromising in their pursuit of the best possible sports car. The suspension is another reflection of the engineers’ dedication to “Jinba Ittai.”

Captivating design is an essential element of a successful sports car. The design of the MX-5 was initiated at Mazda North America (MANA), a development center located in California. In January 1986, it was decided that the R&D team in Japan would take over, and that summer the design base moved to Hiroshima with an almost-finished clay model.
Even at this stage, there were still doubts that the MX-5 would ever reach production. Some people still questioned the market potential of a lightweight sports car. To test this, a full-scale plastic body prototype was made from one of the design proposals and brought to the US in April 1987. Members of the public with an interest in cars were invited to preview the design. Of the 220 participants, 57 responded that they “would definitely buy it if it hit the market.” With the US being the world’s largest automobile market, this result had a strong influence on the decision makers at Mazda.
Having successfully survived this early crisis, development continued and the design was finalized five months later. Two years after that, in spring 1989, Mazda’s compact roadster went on sale in the US, with sales in Japan commencing in September. Japan had been without an exciting car that could connect directly with the driver’s emotions for a long time, and the MX-5, known in Japan as the Eunos Roadster, surprised many people with its instant success.
The Mazda MX-5 achieved more than a boost to Mazda’s sales figures; it triggered a number of other automakers to produce their own open-top sports cars. As a result, it brought about a 1990s revival of the lightweight sports car that had disappeared at the end of the 1970s. The MX-5 proved that lightweight sports cars can have a universal appeal. This achievement was made possible by the advancement of automotive technologies and the passion of Mazda’s engineers.
The World’s luckiest car
The Mazda MX-5 was born in the hearts of automotive engineers and brought to fruition through their aspirations. Beloved by drivers around the world since its debut, it was certified by Guinness World Records as the world’s highest production two-seat open top sports car in May 2000 (with 531,890 units produced between April 1989 and the end of October 1999). MX-5 sales continued to increase around the world, and Guinness updated the record when production passed 800,000 units in January 2007.

Even today, the “Jinba Ittai” spirit lives on in the third generation MX-5. The latest version of Mazda’s iconic roadster was born from the belief that “Only a very few sports cars possess the enduring spirit seen in the MX-5.”

It is this passion that makes Mazda’s MX-5 roadster the luckiest car on Earth.

Source: Mazda.com

Compiled By: Josh Martin
You May Also Like Seeing: “A Mazda MX-5 Balanced on a Saw Horse
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Graffiti Bot Tags With Paintball Bullets – Mazda MX-5 Paint Ball Art

This is simply amazing art:

Very cool project by Michael Haas. Hass has created a graffiti writing paintball robot, entitled “Facadeprinter”.

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The Facadeprinter is a simple robot. Its purpose: shooting out large scale graphics onto walls. Calculating movements based on digital artwork, software controlled motors position an airpressure-marker to fire thousands of colorballs and print the work on a distant surface. The artwork grows dot by dot, like the drawing of a magic pen. An inkjet-printer in architectonical dimensions.

Martin Fussenegger and Michael Haas, have invented a computer controlled air pressure bubble ink jet print system that reproduces graphics on an architectural scale, from up to 20 feet or 5 meters distant.

“The facadeprinter is a simple, software controlled robot. It consists of a two-axis turntable and a print head which is powered by compressed air. The printer shoots the picture dot by dot from a remote distance on a selected surface. Particularly inaccessible, format-less and uneven surfaces can be printed on. For example a building can be printed from the street, without having a complex scaffolding. The process of printing has a certain entertainment value. Moreover the facadeprinter is a comparatively cheap large-scale printing technology. Therefore it is an media and also a technical innovation. This new media is an unconventional tool for large-scale communication.”

Sources: Never the less nation and Trend Hunter

Complied By: Josh Martin

 
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Posted by on November 5, 2012 in art, Automotive, technology, Video Blog

 

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Mazda MX-5 Miata Saw Horse Sunt – Behind the Scenes

Source: Mazda USA 

It Takes Two To Be One:

Something almost symbiotic happens when a car and driver are in perfect harmony. Case in point, the Mazda MX-5 Miata. To engineer a vehicle that seems to anticipate a driver’s every move requires obsessively reengineering every part to work together in perfect harmony. To achieve that, the engineers at Mazda took into account every bolt, every wire and every stitch to achieve near perfect 50:50 front-to-rear weight distribution, resulting in a car that is perfectly balanced. Well, almost. The MX-5 is precisely engineered to account for one more variable—you, the driver. And in doing so, they created a vehicle that couldn’t be balanced until a driver is sitting in the driver’s seat. The result: You complete it. Because at Mazda, we don’t just engineer cars. We engineer harmony.

Objects in mirror have been trying to catch up for 20 years:

The fact that the MX-5 Miata has been racing for its entire 20 years relates directly to another amazing fact: On any given weekend, more Mazdas and Mazda-powered cars are road-raced
in the U.S. than any other car. Import or domestic, the lightweight, rigid and perfectly balanced MX-5 is the most popular amateur race car in the world. And there’s more—like the fact that Spec Miata is the Sports Car Club of America’s (SCCA) largest and most popular amateur racing class. And in terms of pro racing, 2011 marked the sixth season of the SCCA Playboy Mazda MX-5 Cup. Now an 11-race series, the MX-5 Cup attracts many of pro racing’s top up-and-comers. A true test of talent and technique, drivers compete in identically prepped MX-5 Miatas on many of America’s legendary racecourses, including Mazda Raceway Laguna Seca.

Mazda is also the official vehicle of the Skip Barber Driving Schools, Racing Schools and Race Series—the largest most successful racing/driving schools on the planet. Among its fleet of 170 race cars, there are no less than 60 Mazda MX-5 Cup Miatas.

Bottom line: The best street cars make the best race cars. And the MX-5 has been—and still is— the most road-raced of them all.

2013-Mazda-MX-5Speed is Nothing without control:

The MX-5’s 50:50 front-to-rear weight distribution is crucial to its legendary handling. Its front-midship-engine placement and rear-wheel-drive layout enhance balance and directional control. Helping to keep the MX-5 firmly anchored to the pavement is a track-tuned suspension that delivers superb handling and directional stability by combining a sophisticated double- wishbone layout up front with an advanced multilink setup in the rear. A hollow front stabilizer bar is partnered with four gas-charged shock absorbers and a solid rear stabilizer bar to minimize body roll and maximize cornering grip. Manual transmission models come equipped with a torque-sensing limited-slip differential, and all models come equipped with Dynamic Stability Control* with an integral Traction Control System that optimizes both traction and handling in less than ideal road conditions. The result: handling that borders on telepathic.

We Obsess Over The Big Picture:

When a vehicle is perfectly balanced, even the smallest variation can have a huge impact. To keep the MX-5 perfectly balanced on the road required taking into account every weight-bearing variable—down to the stitching in the upholstery and then obsessively engineering12 distinct sets of precisely calibrated springs to balance out even the smallest change in weight. Finely tuned to account for the finest of details,each individual. MX-5 is precisely engineered to create the perfect balance of stiffness for control, softness for comfort and stability for all those twists and turns theroad has in store.

A Car Should be an Extension of Your Body:

Blur the line where man ends and machine begins. Every Mazda engineer understands the essence of jinba ittai—“rider and horse as one.” A horse and its rider communicate by being instinctively in tune with each other. To achieve that same effortless communication behind the wheel, Mazda engineers used multiple electromyograms and G sensors to analyze a driver’s complete interaction with the vehicle. From determining the exact location of the shift lever to which muscles and precisely how much effort would be needed to shift, every aspect of the drive is engineered to not just connect you with your MX-5, but to be one with it.

Compiled By: Josh Martin

 
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Posted by on October 30, 2012 in Automotive

 

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