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- Chevrolet Impala Front Exhaust Pipe, 1958 - Internal combustion engines produce exhaust gases -- including unburned hydrocarbons, carbon monoxide, and nitrogen oxides -- that must be vented from the engine. Gases generally are routed through a manifold or header, then through an exhaust pipe that ends at a port at the car's rear. A muffler near the end of the pipe reduces noise.
- 1958
- Collections - Artifact
Chevrolet Impala Front Exhaust Pipe, 1958
Internal combustion engines produce exhaust gases -- including unburned hydrocarbons, carbon monoxide, and nitrogen oxides -- that must be vented from the engine. Gases generally are routed through a manifold or header, then through an exhaust pipe that ends at a port at the car's rear. A muffler near the end of the pipe reduces noise.
- Muffler & Tailpipe Hanger Box, 1960-1970 - Internal combustion engines produce exhaust gases that must be vented from the engine. Gases generally are routed from the engine through a manifold or header, and then through an exhaust pipe to the car's rear. Before they exit the pipe, the gases move through a muffler with baffles or plates that reduce -- or muffle -- the noise.
- 1960-1970
- Collections - Artifact
Muffler & Tailpipe Hanger Box, 1960-1970
Internal combustion engines produce exhaust gases that must be vented from the engine. Gases generally are routed from the engine through a manifold or header, and then through an exhaust pipe to the car's rear. Before they exit the pipe, the gases move through a muffler with baffles or plates that reduce -- or muffle -- the noise.
- Ford Station Wagon Rear Exhaust Pipe, 1965 - Internal combustion engines produce exhaust gases -- including unburned hydrocarbons, carbon monoxide, and nitrogen oxides -- that must be vented from the engine. Gases generally are routed through a manifold or header, then through an exhaust pipe that ends at a port at the car's rear. A muffler near the end of the pipe reduces noise.
- 1965
- Collections - Artifact
Ford Station Wagon Rear Exhaust Pipe, 1965
Internal combustion engines produce exhaust gases -- including unburned hydrocarbons, carbon monoxide, and nitrogen oxides -- that must be vented from the engine. Gases generally are routed through a manifold or header, then through an exhaust pipe that ends at a port at the car's rear. A muffler near the end of the pipe reduces noise.
- Studebaker Lark Exhaust Pipe, 1962 - Internal combustion engines produce exhaust gases -- including unburned hydrocarbons, carbon monoxide, and nitrogen oxides -- that must be vented from the engine. Gases generally are routed through a manifold or header, then through an exhaust pipe that ends at a port at the car's rear. A muffler near the end of the pipe reduces noise.
- 1962
- Collections - Artifact
Studebaker Lark Exhaust Pipe, 1962
Internal combustion engines produce exhaust gases -- including unburned hydrocarbons, carbon monoxide, and nitrogen oxides -- that must be vented from the engine. Gases generally are routed through a manifold or header, then through an exhaust pipe that ends at a port at the car's rear. A muffler near the end of the pipe reduces noise.
- Ford Thunderbird Rear Exhaust Pipe, 1955 - Ford Motor Company introduced the Thunderbird, a two-seat "personal car," for 1955. Its 392-cubic-inch V-8 engine was rated at 193 horsepower on manual-transmission cars, but a higher compression ratio boosted that rating to 198 for automatics. Dual exhaust pipes were routed through ports in the rear fascia, located on each side of the license plate and attached to the rear bumper.
- 1955
- Collections - Artifact
Ford Thunderbird Rear Exhaust Pipe, 1955
Ford Motor Company introduced the Thunderbird, a two-seat "personal car," for 1955. Its 392-cubic-inch V-8 engine was rated at 193 horsepower on manual-transmission cars, but a higher compression ratio boosted that rating to 198 for automatics. Dual exhaust pipes were routed through ports in the rear fascia, located on each side of the license plate and attached to the rear bumper.