We all know the engineering, manufacturing, materials, and quality control that Mitsuyoshi Kohama used to build a motorcycle "that defies logic and just demands to be ridden." All CB1100 models adhere to this guiding principle. My 2017 CB1100EX is no exception. But as I approach my motorcycle's 10-year birthday, I find myself immersed in an engineering analysis bordering on obsession. I feel a kinship with Kohama and an obligation to the next owner of my motorcycle not only to maintain it but also to ensure its future.
The core of the bike — that air-cooled inline four — is arguably one of the most durable engine architectures ever used in a motorcycle. Air-cooled engines have fewer failure points than liquid-cooled ones: no water pump to fail, no radiator to corrode, no coolant hoses to deteriorate, and no head gasket sealing coolant passages. The CB1100EX engine is under-stressed by modern standards, producing modest power from a large displacement. That's exactly the recipe for extreme longevity. Honda's metallurgy in the cylinder bores, cranks, and transmission gears is excellent, and there's nothing in that engine that can't be rebuilt or re-machined.
The steel double-cradle frame is simple, robust, and repairable. Unlike aluminum frames that are difficult to weld without specialized equipment, a steel frame can be straightened, repaired, or reinforced by any competent fabricator indefinitely.
The wire-spoke wheels on the EX are another longevity advantage — individual spokes can be replaced, rims can be re-laced, and hubs can be refurbished. All good there.
Despite having earned the highest reliability rating possible, electrical components such as the fuel injection system, ECU, sensors, wiring harness connectors, ABS module, instrument cluster, etc., pose a long-term vulnerability for my CB1100EX. When those parts fail, they simply must be replaced. Although Honda sold the CB1100 in the United States for only three years, it had a much longer run in Australia, Europe, and Japan. Parts remain available. Capacitors on circuit boards degrade whether the bike runs or not. Storing critical spares in a humidity-controlled environment is a reasonable precaution. These parts had finite production runs and do not share many components with Honda's current motorcycle line. And with the help of my friends at Webike, I have started building a spare inventory for those parts I cannot source from my local motorcycle shop. It is manageable.
Rubber and plastic components — seals, gaskets, bushings, intake boots, body panels — all have finite lifespans and must be preserved or replaced with hardened alternatives. That said, new manufacturing capabilities catering to motorcycle preservationists are making replacement options increasingly available.
By choosing air cooling, a simple steel frame, wire wheels, and a conventional layout, Kohama made a bike that's inherently more rebuildable and sustainable than most modern motorcycles. I want my motorcycle to be ridden for 100 years. With some planning and help from the great people I have engaged and this Forum, I believe that goal is possible. Many original Honda CB750s are still running today. And with all due respect to arguably the most important motorcycle ever built, the CB1100 is better engineered and is made with far better materials. Until you tell me to stop, I plan to share how I go about extending the life of my motorcycle. I am not advocating that you do the same, but I do hope you will assist me even if you find it foolish. Thanks in advance for the assist.
![[Image: SgIvikX.jpeg]](https://i.imgur.com/SgIvikX.jpeg)
The core of the bike — that air-cooled inline four — is arguably one of the most durable engine architectures ever used in a motorcycle. Air-cooled engines have fewer failure points than liquid-cooled ones: no water pump to fail, no radiator to corrode, no coolant hoses to deteriorate, and no head gasket sealing coolant passages. The CB1100EX engine is under-stressed by modern standards, producing modest power from a large displacement. That's exactly the recipe for extreme longevity. Honda's metallurgy in the cylinder bores, cranks, and transmission gears is excellent, and there's nothing in that engine that can't be rebuilt or re-machined.
The steel double-cradle frame is simple, robust, and repairable. Unlike aluminum frames that are difficult to weld without specialized equipment, a steel frame can be straightened, repaired, or reinforced by any competent fabricator indefinitely.
The wire-spoke wheels on the EX are another longevity advantage — individual spokes can be replaced, rims can be re-laced, and hubs can be refurbished. All good there.
Despite having earned the highest reliability rating possible, electrical components such as the fuel injection system, ECU, sensors, wiring harness connectors, ABS module, instrument cluster, etc., pose a long-term vulnerability for my CB1100EX. When those parts fail, they simply must be replaced. Although Honda sold the CB1100 in the United States for only three years, it had a much longer run in Australia, Europe, and Japan. Parts remain available. Capacitors on circuit boards degrade whether the bike runs or not. Storing critical spares in a humidity-controlled environment is a reasonable precaution. These parts had finite production runs and do not share many components with Honda's current motorcycle line. And with the help of my friends at Webike, I have started building a spare inventory for those parts I cannot source from my local motorcycle shop. It is manageable.
Rubber and plastic components — seals, gaskets, bushings, intake boots, body panels — all have finite lifespans and must be preserved or replaced with hardened alternatives. That said, new manufacturing capabilities catering to motorcycle preservationists are making replacement options increasingly available.
By choosing air cooling, a simple steel frame, wire wheels, and a conventional layout, Kohama made a bike that's inherently more rebuildable and sustainable than most modern motorcycles. I want my motorcycle to be ridden for 100 years. With some planning and help from the great people I have engaged and this Forum, I believe that goal is possible. Many original Honda CB750s are still running today. And with all due respect to arguably the most important motorcycle ever built, the CB1100 is better engineered and is made with far better materials. Until you tell me to stop, I plan to share how I go about extending the life of my motorcycle. I am not advocating that you do the same, but I do hope you will assist me even if you find it foolish. Thanks in advance for the assist.
2017 Honda CB1100 EX
The most sophisticated, smooth, perfectly engineered motorcycle I've ever owned. A pleasure in every way.
The most sophisticated, smooth, perfectly engineered motorcycle I've ever owned. A pleasure in every way.
