Bendix Corporation


Bendix Corporation is an American manufacturing and engineering company founded in 1924 and subsidiary of Knorr-Bremse since 2002.
During various times in its existence, Bendix made automotive brake shoes and systems, vacuum tubes, aircraft brakes, aeronautical hydraulics and electric power systems, avionics, aircraft and automobile fuel control systems, radios, televisions and computers. A line of home clothes washing machines in the mid-20th century were marketed as Bendix, though those were produced by a partner company that licensed its name. As of 2025, the company focuses on the trucking and automotive industries.

History

Early history

Founder and inventor Vincent Bendix filed for a patent for the Bendix drive on May 2, 1914. The drive engages the starter motor with an internal combustion engine and is still used on most automobiles today. Bendix initially began his new corporation in a hotel room in Chicago in 1914 with an agreement with the struggling bicycle brake manufacturing firm, Eclipse Machine Company of Elmira, New York. Bendix granted permission to his invention which was described as "a New York device for the starting of explosive motors." This company made a low cost triple thread screw which could be used in the manufacture of other drive parts.

Automotive

purchased a 24% interest in Bendix in 1924, not to operate Bendix but to maintain a direct and continuing contact with developments in aviation, as the engineering techniques of the auto and aircraft were quite similar then. In the 1920s, Bendix owned and controlled many important patents for devices applicable to the auto industry. For example, brakes, carburetors, and starting drives for engines. It acquired Bragg-Kliesrath brakes in the late 1920s. In 1942 Ernest R. Breech became president of Bendix, moving from General Motors. After performing brilliantly for Bendix by introducing GM management philosophies, he attracted the attention of Henry Ford II who persuaded Breech to move to Ford where he finished his career. By 1940 Bendix had sales running c. $40 million. In 1948, General Motors sold its interest in Bendix as GM wanted to focus on its expanding automotive operations. Bendix was formally founded in 1924 in South Bend, Indiana, United States. At first it manufactured brake systems for cars and trucks, supplying General Motors and other automobile manufacturers. Bendix manufactured both hydraulic brake systems and a vacuum booster TreadleVac for its production lines for decades. In 1924 Vincent Bendix had acquired the rights to Henri Perrot's patents for Drum brake/drum and shoe design.
In 1956, Bendix introduced Electrojector, a multi-point electronic fuel injection system, which was optional on several 1958 models of automobiles built by Chrysler.
In the 1960s, Bendix automotive brakes blossomed with the introduction of fixed-caliper disc brakes and the "Duo-Servo" system. During the 1960s, Bendix also dabbled in bicycle hardware, producing a reliable, totally self-contained, 2-speed "Kick-Back" planetary rear axle with coaster braking. Also, just as reliable, was the Bendix "Red Band" and "Red Band II" single speed coaster brake hub. followed by the Bendix "70" and Bendix "80" hub. Considered one of the best hubs on the market, at the time.
Starting in the 1950s or before, Bendix Pacific designed, tested, and manufactured hydraulic components and systems, primarily for the military. In the same facility, avionics and other electronic hardware was designed, manufactured, and documented in technical manuals. Much of this operation was relocated to a new facility in Sylmar, California, where they had a large deep indoor pool for testing sonar. Telemetry components for the RIM-8 Talos surface-to-air missile included transmitters and oscillators in various frequency bands as well as the missile itself were designed and built by Bendix. They built and installed the telemetry system in all the ground stations for the first crewed space flights. For this program, they developed the first cardio tachometer and respiration rate monitor system which enabled a ground-based physician to observe an astronaut's vital signs. MK46 torpedo electronics also came from this facility. Other diverse products included radar detectors in aircraft that identified ground missile tracking and ground missiles launched at aircraft. In the 1960s they produced an anti-lock brake system for military aircraft using established technology similar to Dunlop's earlier Maxaret. The technology is similar to the notched wheel and reluctor now used in cars.
Bendix Scintilla manufactured MIL SPEC electrical connectors of many styles. Criteria were met for hostile and non-hostile environments that provided seals against liquids and gasses.
In 1971, Bendix introduced the world's first true computerized ABS system on Chrysler's 1971 Imperial. Production continued for several years. Under its present ownership by Honeywell, Bendix continues to manufacture automotive brakes and industrial brakes for a wide variety of industries. In 2014, Honeywell sold the Bendix trademark for automotive brakes in the US, to MAT Holdings.
Many Bendix automotive, truck and industrial brakes sold in the United States used asbestos as late as 1987. Bendix's current parent, Honeywell, continues to deal with numerous lawsuits brought as a result of asbestos-containing Bendix brand brakes.

Mass spectrometer

A collaboration between Fred McLafferty and Roland Gohlke and William C. Wiley and Daniel B. Harrington of Bendix Aviation in the 1950s led to the combination of gas chromatography and mass spectrometry, and the development of Gas chromatography–mass spectrometry instrumentation. Beginning in the 1960s, Bendix produced scientific instruments such as the Bendix MA-2 Time-of-Flight Mass Spectrometer.

Radiological Dosimetry

Bendix manufactured Radiological Dosimeters for Civil Defense during the cold war, they also made a Family Radiation measurement kit for home use, which included a CDV-746 dosimeter and a CDV-736 Rate meter, which looked like a dosimeter.
Dosimeters manufactured by Bendix for the Office of Civil Defense included: CDV-138; CDV-730; CDV-736-Ratemeter; CDV-740; CDV-742, the version most commonly used by Civil Defense; and CDV-746.
The Dosimeters measured in Roentgens an hour, which is the standard measurement for ionising radiation.

'Dashaveyor' Automated Guideway Transit

In the late 1960s Bendix purchased the rights to the Dashaveyor system – developed for mining and goods movements – in order to use it as the basis for an automated guideway transit system, during the heyday of urban transport research in the late 1960s. Often referred to as the Bendix-Dashaveyor in this form, the system used the basic design of the cargo system, but with a larger passenger body running on rubber wheels. Although it was demonstrated at Transpo '72, along with three competitors, only one Dashaveyor system was installed, the long Toronto Zoo Domain Ride which operated from 1976 until its closure in 1994 following an accident due to poor maintenance. Bendix ceased marketing the system by 1975 after it failed to attract interest.

Avionics, military and government

In 1929 Vincent Bendix branched out into aeronautics and restructured the company as "Bendix Aviation" to reflect the new product lines.
Bendix Aviation was founded as a holding company for the assets of Delco Aviation Corporation, Eclipse Machine Company, Stromberg Carburetor Company, and other aircraft accessory manufacturers.
Bendix supplied aircraft manufacturers with hydraulic systems, for braking and flap activation, and introduced the pressure carburetor. It made a wide variety of electrical and electronic instruments for aircraft.
From 1931, it sponsored the Bendix Trophy, a transcontinental U.S. point-to-point race intended to encourage the development of commercial aircraft.
During and after World War II Bendix made radar equipment of various types.
Bendix ranked 17th among United States corporations in the value of wartime production contracts.
Bendix aviation masks and gauges were modified and tested for use in diving and hyperbaric applications.
In the 1950s, Bendix and its successors managed United States Atomic Energy Commission facilities in Kansas City, Missouri and Albuquerque, New Mexico. These facilities procured non-nuclear components for nuclear weapons.
In 1956, the computer division of Bendix Aviation introduced the Bendix G-15, a mini computer which was the size of two tall filing cabinets. The company sold about 400 of these at prices starting at below US$50,000. The Bendix computer division was taken over in 1963 by Control Data Corporation, which continued to support the G-15 for a few years.
The chief designer of the G-15 was Harry Huskey, who had worked with Alan Turing on the ACE in the UK and on the SWAC in the 1950s. Huskey created most of the design while working as a professor at Berkeley and other universities, and also as a consultant.
The company was renamed to Bendix Corporation in 1960. During the 1960s the company made ground and airborne telecommunications systems for NASA. It also built the ST-124-M3 inertial platform used in the Saturn V Instrument Unit which was built by the Navigation and Control Division in Teterboro, New Jersey. It also developed the first automobile fuel injection system in the US. In 1966 NASA selected Bendix Aerospace Systems Division in Ann Arbor, Michigan to design, manufacture, test, and provide operational support for packages of the Apollo Lunar Surface Experiments Package to fly on the Apollo Program.
In January 1963, the Civil Aeronautics Board released a report stating that the "most likely abnormality" to have caused the crash of American Airlines Flight 1 on March 1, 1962, was a short circuit caused by wires in the automatic piloting system that had been damaged in the manufacturing process. CAB inspectors had inspected units at a Teterboro, New Jersey, Bendix Corporation plant and discovered workers using tweezers to bind up bundles of wires, thus damaging them. The Bendix Corporation issued denials, stating that the units underwent 61 inspections during manufacture, in addition to inspections during installation and maintenance work, and insisted that had the insulation on the wires been breached at some point, it would have been detected and the unit replaced.
Marine
During World War II, Bendix was contracted to make engine order telegraphs for the United States Navy.