May 20, 2013, Switzerland
May 20, 2013 - Honda Aircraft Company today announced a number of achievements and significant milestones in the development of the HondaJet, the world’s most advanced light jet, at the 2013 European Business Aviation Convention and Exhibition (EBACE) in Geneva, Switzerland.
“The HondaJet program is steadily approaching the final phase of flight testing, and manufacturing has transitioned to production of customer aircraft,” said Michimasa Fujino, president and CEO of Honda Aircraft Company. “I’m committed to bringing new value to aviation by introducing the HondaJet. At the same time, Honda Aircraft Company continues to build the infrastructure and talent to design, manufacture and service this revolutionary aircraft.”
Testing and certification
The HondaJet flight test fleet has been busy completing milestones and testing various systems. The program has flown approximately 3,300 test points for stability and control, aircraft performance, landing gear, flight controls, environmental controls, steering, braking, avionics and electrical systems. Below are a few of the highlights:
- Aerodynamics – The program has completed flight testing from stall to high speed dive. Stall testing included stall characteristics, stall speeds, handling qualities and performance. The flight test engineering team also recently conducted flutter testing at high and low altitude, and the aircraft flight envelope was expanded to the maximum dive speed (VD).
- Function and reliability – On May 16, 2013, the program’s fifth FAA-conforming HondaJet achieved its first flight. This aircraft will be used for function and reliability (F&R) testing. F&R testing will simulate in-service flight operations of the aircraft. It has a production interior with standard lavatory and options including a side-facing seat, and will be used for interior and cabin systems tests.
- Environmental – In March, Honda Aircraft conducted cold weather testing in International Falls, Minn., to examine aircraft systems under extreme temperatures. Testing included windshield heat and anti-icing systems, mechanical systems operations, avionics functional checks and electrical system testing. HondaJet wing anti-ice and nacelle inlet anti-ice tests were also conducted at the NASA Glenn Research Tunnel in Cleveland, Ohio. This remote testing augments hot weather testing conducted in Yuma, Ariz., last year, which included critical case tests for aircraft systems.
- Structural testing – The test program successfully completed abnormal operation testing for the main entry door (MED) and emergency exit door (EED). These tests were conducted with the HondaJet program’s second structural ground test aircraft, which joined the program in October 2012. It is being used for both static testing and damage tolerance testing to analyze the durability of composite structures. This testing supplements the previously completed ultimate load, European Aviation Safety Agency (EASA) bird strike and component structural testing.
“Our team is working very hard to bring the HondaJet to market as quickly as possible,” said Fujino. “Customer and market expectations are high, and I am dedicated to certifying and delivering an aircraft that will bring our customers lasting joy. The more than 800 people working at Honda Aircraft Company will continue to challenge and achieve milestones.”
Manufacturing transitioned to production of customer aircraft
Honda Aircraft Company manufacturing has fully transitioned to the production of customer aircraft. Collaboration between engineering, production control, supply chain and manufacturing continues to fine-tune the processes and workflow necessary to achieve lean production and quality requirements for FAA Production Certificate (PC).
- Production efficiencies – Manufacturing’s experience building the program’s test fleet has influenced best practices to more efficiently produce a high quality customer aircraft. A recent line balance project reduced the overall work footprint and created a more efficient workflow. Technology is also playing a vital role in HondaJet manufacturing. Handheld tablet devices will electronically deliver orders and visual work instructions to technicians on the assembly floor; an Automatic Guided Cart (AGC) will pick up and deliver parts to assembly areas; and an innovative, on-site paint mixing system will deliver a superior aesthetic quality while reducing the overall quantity of paint needed to finish aircraft.
Building infrastructure to support the total HondaJet ownership experience
Construction continues on Honda Aircraft’s new customer service center to provide aftermarket support for the HondaJet in Greensboro, N.C. Once in service, the facility will complement the HondaJet dealer network, which includes three dealers in Europe and seven in North America. The facility will be complete in the fall of 2013. Honda Aircraft is targeting the end of 2013 for facility FAA certification as a Part 145 repair station.
Honda Aircraft Company has invested in advanced technologies that fully integrate engineering, manufacturing, customer service and administration functions. The company’s extensive IT infrastructure underscores Honda Aircraft’s commitment to deliver superior customer service and support that is consistent with Honda’s reputation for quality.
For aircraft maintenance tracking, Honda Aircraft will be endorsing CAMP. The program will help HondaJet customers monitor aircraft service requirements including reviewing scheduled inspections, service, maintenance planning documents, and regulatory airworthiness directives. In addition, Quantum Control is being used to integrate inventory, accounting, service and other critical functions.
“The energy and excitement on our campus is building, especially in manufacturing where customer aircraft can be seen on the assembly line,” said Fujino. “We are not only building a game changing product, but also building the industry’s best product support and customer service. Honda will continue to deepen our roots in aviation and create a higher standard for private aircraft ownership.”
GHAE is estimating HF120 type certification in Q4(Oct-Dec)2013.
Honda Aircraft Company is targeting the end of 2014 for HondaJet certification.
About HondaJet
HondaJet is the world’s most advanced light business jet aircraft, with best-in-class advantages in performance, comfort, quality and efficiency. The HondaJet is the fastest, highest-flying, quietest, and most fuel efficient jet in its class. The HondaJet incorporates many technological innovations in aviation design, including the unique Over-The-Wing Engine Mount (OTWEM) configuration that dramatically improves performance and fuel efficiency by reducing aerodynamic drag. OTWEM design also reduces cabin sound, minimizes ground-detected noise, and allows for the roomiest cabin in class, the largest baggage capacity, and a fully serviceable private aft lavatory. The HondaJet is powered by two highly fuel-efficient GE Honda HF120 turbofan jet engines, and is equipped with the most sophisticated glass flight deck available in any light business jet, a Honda-customized Garmin G3000™ next-generation all-glass avionics system composed of three 14-inch landscape-format displays and dual touch-screen controllers. The HondaJet is Honda's first commercial aircraft and lives up to the company's reputation for superior performance, efficiency, quality and value.
Honda Aircraft Company
Honda Aircraft Company LLC, a wholly owned subsidiary of American Honda Motor Co., Inc., was founded in 2006 though has its heritage in more than 20 years of groundbreaking aeronautical research and development. At Honda Aircraft’s world headquarters in North Carolina, the birthplace of aviation, the company’s associates work in more than 500,000 square feet of state-of-the-art R&D, manufacturing and administration headquarter buildings to develop, produce, market and support the HondaJet with HondaJet dealers. The challenging spirit upon which Mr. Soichiro Honda founded Honda Motor Co., Ltd. is alive today as Honda Aircraft fulfills one of Honda's long-standing dreams to advance human mobility skyward.
Cold Weather Testing