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Mazda 767
Mazda 767
Mazda 767
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Mazda 767
Mazda 767B
A 767B at Central Circuit in 2007
CategoryGroup C/IMSA GTP
DesignerNigel Stroud
Production1988-1989
PredecessorMazda 757
SuccessorMazda 787
Technical specifications
ChassisCarbon-fiber, Kevlar, and aluminum honeycomb monocoque
SuspensionDouble wishbones with inboard coil springs over shock absorbers
Engine767: Mazda 13J-M 2,616 cc (159.6 cu in) 4-rotor naturally aspirated, mid-engined, longitudinally mounted
767B: Mazda 13J-MM 2,616 cc (159.6 cu in) 4-rotor naturally aspirated, mid-engined, longitudinally mounted[1]
TransmissionMazda/Porsche 5-speed manual
Power767: 500 hp (373 kW) @ 8,500 rpm
767B: 630 hp (470 kW) @ 9,000 rpm
Weight800 kg (1,764 lb)
BrakesRays Volk discs
Competition history
Notable entrantsJapan Mazdaspeed
Debut1988 Suzuka 500 km (767)
1989 24 Hours of Daytona (767B)
Last event1992 Fuji 1000km
RacesWinsPolesF/Laps
38000
Constructors' Championships0
Drivers' Championships0

The Mazda 767 and 767B are prototype racing cars that were built by Mazdaspeed for the 24 Hours of Le Mans running under the International Motor Sports Association-specification GTP class. The 767 replaced the 757 in 1988, upgrading to a newer and larger four-rotor 13J Wankel engine, which produced nearly 600 hp (450 kW).[2][3][4][5][6]

Two 767s were entered at 1988 24 Hours of Le Mans, finishing 17th and 19th overall, but they finished behind a sole 757, which was able to finish 15th. In the All Japan Sports Prototype Championship (JSPC), Mazda managed fourth in the constructors' championship. For 1989, Mazda upgraded the 767 into the 767B, and initially tested it in the International Motor Sports Association 24 Hours of Daytona, where it was successful in finishing fifth overall. Later in the year, Mazda returned to Le Mans with two 767Bs and an older 767. The 767Bs were able to finish seventh and ninth overall, while the lone 767 was able to finish 12th. However, in JSPC, the results were not as promising, as Mazda finished a mere 5th in the championship. For 1990, a single 767B was entered alongside two newer 787s, and was the only car of the three to finish, although in 20th overall.[7][8][9]

References

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Mazda 767

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from Grokipedia
The Mazda 767 is a mid-engined sports prototype racing car developed by Mazda for the 1988 World Sportscar Championship and IMSA GTP series, marking the company's first use of a four-rotor Wankel rotary engine in competition and serving as a direct evolution from the preceding 757 model. Powered by a naturally aspirated 2.6-liter 13J four-rotor engine producing approximately 600 horsepower at 8,500 rpm, the 767 featured a lightweight carbon-fiber and Kevlar monocoque chassis, revised aerodynamics for improved downforce, and a five-speed manual transmission, all designed to enhance reliability and speed under endurance racing conditions. Three chassis were constructed, with the car debuting at the 1988 24 Hours of Le Mans where two entries finished 17th and 19th overall, behind a 757 that placed 15th, highlighting early teething issues with the new rotary powerplant despite its innovative design. An updated variant, the Mazda 767B, arrived in 1989 with refinements including a more potent 13J-MM variant rated at around 630 horsepower, further aerodynamic optimizations for better , and weight reductions to boost competitiveness. At the 1989 , three 767Bs achieved stronger results with finishes of 7th, 9th, and 12th overall, while a single entry in 1990 secured 20th place but claimed victory in the GTP class, demonstrating marked improvements in durability during long-stint races. These models played a pivotal role in Mazda's development program, providing critical data on four-rotor technology, , and high-speed stability that directly informed the subsequent 787B, which achieved Mazda's historic overall victory at the 1991 —the first for a Japanese manufacturer. Today, surviving 767B chassis are prized collector items, with one selling for $1.75 million at auction in 2017, underscoring their enduring legacy in motorsport history.

Development

Background

Mazda's involvement in motorsports with rotary engines began in the early as part of its commitment to proving the durability and performance of Wankel technology in high-stakes competition. The , introduced in 1983, marked the company's entry into the newly formed category and achieved successes in the GTP series, including class victories that highlighted the rotary's potential in prototype racing. This was followed by the in 1984, which continued to build on those achievements with reliable performances in GTP events, securing additional class wins and establishing as a competitive force in American endurance racing. By 1987, Mazda advanced its prototype lineup with the 757, which demonstrated significant progress at the , finishing seventh overall and claiming the GTP class victory—the first top-10 result for a Japanese car at the event. These successes underscored Mazda's growing expertise in adapting rotary engines for international challenges. The 757's performance at , driven by a team including David Kennedy, Pierre Dieudonné, and Mark Galvin, covered 4,305 km and boosted confidence in scaling up rotary power for future prototypes. The development of the Mazda 767 was prompted by evolving regulations in both and GTP classes, which emphasized to promote and following the 1970s oil crisis. Introduced in 1982, rules limited total fuel consumption—approximately 2,600 liters for the in 1988—while GTP allowed greater flexibility but still rewarded efficient powertrains, advantages that rotary engines exploited through their smooth operation and reduced vibration. These changes motivated Mazda to create a new capable of competing at the highest levels while adhering to stricter efficiency mandates. Leading the 767 project was chief engineer Nobuhiro Yamamoto, whose background in rotary development since joining in positioned him to oversee the integration of advanced Wankel technology into racing applications. The effort was spearheaded by the team, Mazda's in-house division, which collaborated closely with the parent company's engineering resources to refine prototypes for global competition. The initial goals for the 767 focused on achieving a top-three finish at the 1988 while complying with the era's fuel limits of around 2,500 liters over 24 hours, aiming to elevate Mazda from class contender to overall threat. Rotary engines provided a brief reference advantage in such endurance formats through their inherent efficiency under constrained fuel conditions.

Design evolution

The Mazda 767 represented a significant step in Mazda's prototype racing program, evolving directly from the 757 to address performance limitations and regulatory demands in the GTP class. The primary engineering focus was on powertrain advancement, shifting from the 757's three-rotor 13G engine—displacing 2.0 liters and producing approximately 450 horsepower—to the new four-rotor 13J-M engine in the 767, which increased displacement to 2.6 liters and output to around 600 horsepower. This redesign incorporated and refined rotor housing materials to enhance reliability under endurance conditions, allowing sustained high-revving operation without the apex seal failures that plagued earlier rotaries. Aerodynamic development emphasized efficiency and stability, with the 767's bodywork refined through iterative testing at Mazda's facilities near to optimize over the compact . Compared to the 757, the 767 featured a shorter and revised body contours that reduced frontal area while increasing at high speeds, particularly in corners, to improve lap times on circuits like . These changes aimed to balance drag reduction with sufficient ground effect for the GTP regulations, resulting in a more agile platform that better exploited the added engine power. The chassis evolved from the 757's aluminum structure, retaining a carbon-fiber and composite layout but incorporating targeted reinforcements for greater torsional rigidity and impact resistance. This update addressed vulnerabilities observed in prior models during high-speed crashes, using bonded aluminum sheets over cores to maintain lightweight construction while meeting evolving safety standards. Suspension was also recalibrated, adopting double wishbones with inboard coil-over shocks to mitigate understeer tendencies inherent in the 757. Project development began in late 1987 under , with the first 767 prototype completed by early for initial evaluations. Shakedown testing at revealed handling imbalances due to the increased power and shifted weight distribution, which engineers resolved through suspension tuning and minor aero adjustments, enabling competitive debut at the 1988 Suzuka 1000 km. Three were ultimately built, with iterative refinements carrying into the 767B variant for the following season.

Design

Chassis and aerodynamics

The Mazda 767 utilized a chassis constructed from an honeycomb structure, combined with carbon-fiber and composite body panels to achieve a lightweight yet rigid structure weighing approximately 800 kg dry. This provided essential torsional stiffness for endurance racing demands while adhering to GTP regulations. An integrated was incorporated into the monocoque design to enhance without significantly compromising the overall . The suspension system featured a double wishbone configuration at both the front and rear axles, with inboard-mounted coil springs over dampers and anti-roll bars for precise handling. This setup was specifically tuned to maintain stability during high-speed corners, such as those on the at , allowing the car to manage the rotary engine's power delivery effectively under prolonged loads. Aerodynamically, the 767 adopted a low-slung body profile with ground-effect underbody tunnels to generate and improve cornering grip at elevated speeds. Key elements included a prominent front splitter for directing airflow and an adjustable rear wing to balance aerodynamic loads, optimizing performance across varying track conditions in endurance events. The overall dimensions comprised a of 2,600 mm, front track width of 1,580 mm, rear track width of 1,500 mm, and an overall length of 4,630 mm, contributing to its compact footprint suited for prototype racing circuits.

Engine and powertrain

The Mazda 767 featured the 13J four-rotor Wankel , a naturally aspirated unit with a total displacement of 2,616 cc (654 cc per rotor), equipped with sequential for precise delivery. This engine delivered approximately 550 hp (500-580 hp range) at 8,500 rpm and 376 lb-ft (510 Nm) of torque at 7,000 rpm, enabling high through its ability to rev beyond 9,000 rpm in race trim. The rotary design's inherent advantages included its compact dimensions, which allowed for a low center of gravity when mounted amidships, enhancing the 767's handling balance in conjunction with the chassis layout. High-revving characteristics provided superior power-to-weight ratios compared to piston engines of similar output, but challenges such as apex seal wear were mitigated through the use of silicon nitride ceramic coatings for improved durability and reduced friction. Additionally, an oil metering system supplied lubrication directly to the combustion chamber, optimizing efficiency while addressing the rotary's higher fuel and oil consumption relative to conventional engines. The powertrain was configured for , pairing the engine with a 5-speed manual gearbox co-developed by and for robust shifting under high loads. A mechanical ensured effective torque distribution to the rear wheels, while braking was handled by ventilated carbon-fiber disc brakes. To comply with regulations emphasizing , the 767 incorporated a 100-liter and refined metering systems that improved consumption under racing conditions.

Racing history

1988 season

The Mazda 767 made its racing debut in the season, marking Mazdaspeed's entry into select Group C events internationally, including the , as an evolution of the preceding 757 prototype. The 767 achieved a GTP class victory at the Fuji 1000 km. The new four-rotor 13J engine, while innovative, presented initial teething problems that affected overall competitiveness against established turbocharged rivals like and . At the 1988 , fielded two 767 entries, chassis #201 and #202, qualifying 17th and 19th respectively on the . The #201 car, driven by Yoshimi Katayama, David Leslie, and Marc Duez, completed the full 24 hours to finish 17th overall and 2nd in the GTP class, covering 330 laps. In contrast, the #202 entry, shared by Takashi Yorino, Will Hoy, and Hervé Regout, completed 305 laps to finish 19th overall and 3rd in the GTP class. The novel four-rotor engine contributed to frequent retirements from apex seal wear and cracks in other events. The cars posted competitive best lap times of 3:34.71 at , underscoring strong straight-line speed but the need for refinement in endurance reliability. constructed a total of three 767 to support its program, with logistics emphasizing an international effort, pairing Japanese leads like Yojiro Terada with French and Belgian co-drivers such as Pierre Dieudonné to leverage diverse expertise in European circuits.

1989 season

The 1989 season represented a maturation for the Mazda 767 program, with the introduction of the 767B variant applying lessons from the previous year's reliability challenges to deliver stronger results across endurance racing. The 767B debuted at the in the GTP class, where the #77 entry, powered by the refined 13J four-rotor engine, finished 5th overall and 1st in class after completing 559 laps, driven by Yoshimi Katayama, Takashi Yorino, and Elliott Forbes-Robinson. Mazda's highlight came at the , where the team entered three prototypes: two 767Bs (#201 and #202) and one standard 767 (#203). The #201 767B, driven by Pierre Dieudonné, David Kennedy, and Tim Hodgetts, completed 369 laps to finish 7th overall and 1st in the class. The #202 767B, with drivers Takashi Yorino, Hervé Regout, and Elliott Forbes-Robinson, managed 366 laps for 9th overall and 2nd in class. The #203 767, piloted by Yojiro Terada, Volker Weidler, and Marc Duez, covered 340 laps to secure 12th overall and 3rd in class. All three cars completed the full 24 hours, a testament to engine refinements that improved seal durability and prevented failures during prolonged high-load operation. In the broader GTP campaign, the 767 and 767B variants achieved multiple class podium finishes, including the Daytona victory.

Variants and legacy

767B

The Mazda 767B represented a targeted of the original 767 , incorporating specific upgrades to address reliability and performance shortcomings observed during the 1988 season. Key changes included updated for improved and better cornering stability, and engine upgrades to the 13J-MM variant yielding 630 hp. Three chassis, originally built as 767s, were updated to 767B specification for the 1989 campaign while retaining the core 13J four-rotor Wankel engine. Pre-season shakedowns at Suzuka demonstrated significant gains, validating the modifications' effectiveness; the 767B was subsequently deployed primarily at the 24 Hours of Le Mans and select IMSA events like the Daytona 24 Hours. The 767B positioned as a critical developmental bridge toward the subsequent 787 series.

Influence on later models

The Mazda 767 served as a foundational platform for subsequent rotary-powered prototypes, directly influencing the development of the 787 and 787B through its four-rotor layout and aerodynamic design principles. The 767B variant, an upgrade introduced in , retained the 13J four-rotor configuration while refining chassis dynamics, which carried over to the 787 series as a direct descendant. Aerodynamic enhancements in the 787B achieved approximately 30 percent better efficiency compared to the 767B, building on the ground-effect principles and bodywork shaping tested in the earlier model to optimize and drag reduction. Reliability data from the 767 and 767B programs was instrumental in the 787B's success, particularly its overall victory at the 1991 , where the car's endurance stemmed from lessons in durability and fuel management honed during the 1988–1989 campaigns. Advancements in rotary technology, such as the adoption of ceramic apex seals in racing engines like the R26B successor to the 13J, improved seal longevity and reduced wear under high-stress conditions, indirectly benefiting production models like the RX-7 by validating rotary reliability for broader automotive applications. Several 767 and 767B chassis survive today, underscoring the model's lasting legacy. Chassis 767B-002, which finished ninth overall at the 1989 , underwent a two-year restoration and now resides in ' Heritage Collection, where it participates in historic racing events as of 2024. Other examples, including the class-winning 767B-001 from 1989, are preserved in , with private collections featuring chassis like 767B-003; these cars continue to appear in demonstrations at events such as the . The 1989 GTP class victory by the 767B marked Mazda's first all-Japanese podium finish at , building momentum and engineering confidence that propelled the brand to its landmark 1991 overall win and elevated its global standing in endurance racing.

References

  1. https://www.goodwood.com/grr/race/historic/video-behind-the-wheel-of-the-screaming-mazda-767b/
  2. https://www.mazda.com/en/experience/mspr/motorsports/lemans30th/
  3. https://www.hemmings.com/stories/on-the-path-to-greatness-1989-mazda-767b/
  4. https://www.mazda.com/en/experience/mspr/motorsports/lemans30th/episode/
  5. https://www.motorsportretro.com/2020/10/group-c-the-rise-and-fall-of-the-golden-age-of-endurance-racing-mazda/
  6. https://www.kennyrossmazda.com/the-mazda-717c-a-forgotten-gem-in-motorsport-history/
  7. https://www.dailysportscar.com/2021/07/01/mazda-at-le-mans-21-years-of-trying.html
  8. https://www.evo.co.uk/jaguar/202674/jaguar-xjr-9-the-anatomy-of-a-group-c-racer
  9. https://japanesenostalgiccar.com/25-year-club-mazda-787b-part-02/
  10. https://www.insidemazda.co.uk/2014/07/16/mazda-mx-5-meet-its-maker/
  11. https://www.classicandsportscar.com/features/mazda-le-mans-30-years
  12. https://www.motorsportretro.com/2021/01/group-c-the-rise-and-fall-of-the-golden-age-of-endurance-racing-mazda-part-2/
  13. https://www.insidemazda.co.uk/2018/04/25/mazdas-merciless-tests/
  14. https://historicmotorsportcentral.com/2017/02/14/focus-the-four-rotor-mazda-767b-003/
  15. https://www.ultimatecarpage.com/spec/767/Mazda-767B.html
  16. https://www.ultimatecarpage.com/car/767/Mazda-767B.html
  17. https://lemans-history.com/chlang.php?l=GBR&o=mostra_eq.php?ano=1988&equipa=%2520%252019&equipa_seq=0&evento=C
  18. https://lemans-history.com/chlang.php?l=GBR&o=mostra_eq.php?ano=1988&equipa=%2520%252042&equipa_seq=0
  19. https://24h-en-piste.com/en/AfficherDetails.php?Type=Course&Annee=1988&Numero=201
  20. https://www.mazda.com/en/experience/mspr/motorsports/lemans30th/r26b/
  21. http://www.racingcardraws.com/product/mazda-767-n-202/
  22. https://www.nipponsteel.com/en/tech/report/nsc/pdf/5907.pdf
  23. http://www.racingcardraws.com/product/mazda-767-n-201/
  24. https://www.ultimatecarpage.com/car/766/Mazda-767.html
  25. https://www.racingsportscars.com/results/Le_Mans-1988-06-12.html
  26. https://fastestlaps.com/models/mazda-767
  27. https://www.racingsportscars.com/type/photo/mazda/767.html
  28. https://www.racingsportscars.com/results/Daytona-1989-02-05.html
  29. https://www.racingsportscars.com/results/Le_Mans-1989-06-11.html
  30. https://www.24h-lemans.com/en/news/japan-and-the-24-hours-of-le-mans-1-mazda-triumphs-50317
  31. https://windingroad.com/articles/features/classic-mazda-787b/
  32. https://wobcars.com/the-mightiest-mazda-a-look-back-at-mazdas-787b/
  33. https://silodrome.com/mazda-rx-7-history/
  34. https://news.mazdausa.com/2016-08-10-Mazda-Raceway-to-Welcome-Long-Lost-Mazda-Racer
  35. https://japanesenostalgiccar.com/motorsport-restored-mazda-767b-debuts-at-rolex-monterey-motorsports-reunion/
  36. https://www.mazdamotorsports.com/2024/05/01/mazda-heritage-makes-2024-debut-at-michelin-raceway-road-atlanta-for-the-mitty/
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