05-04-2026, 02:23 AM
I keep seeing ppl post pictures of chips and cracks
Are they all that fragile? And if so why buy them?
Enlighten the old man
Are they all that fragile? And if so why buy them?
Enlighten the old man
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(05-04-2026, 02:23 AM)NaLya Wrote: I keep seeing ppl post pictures of chips and cracks
Are they all that fragile? And if so why buy them?
Enlighten the old man
(05-05-2026, 12:33 PM)Criminal Wrote:(05-04-2026, 02:23 AM)NaLya Wrote: I keep seeing ppl post pictures of chips and cracks
Are they all that fragile? And if so why buy them?
Enlighten the old man
Quick answer is no. Carbon fiber (CF) frames are not fragile, nor are they "plastic" as previously mentioned, but like anything there are higher and lower quality grades of materials used, as well as the quality of design and production.
When used properly for their intended purpose, and properly maintained and stored they are quite durable. It does not matter about the materials, everything degrades with age and use, just some quicker than others and it seems that CF frames are going to go to pot faster than steel, Ti, aluminum frames; but caution to those who think they can jump on a bike with 50+ year old wooden rims and expect no problems even if they look okay visually. I just saw a 1901 bike frame that initially used bamboo tubes in the frame (steel lugs), but the bamboo had been replaced with broomsticks. No idea why it was "rebuilt" with solid wood (bamboo damaged by age derioration, accident, etc.). Presently, the bike is rebuilt with bamboo again.
CF in general is quite simple; essentially only the fibers themselves which do not degrade, and a resin matrix ("glue") that binds the fibers. It is the resin that slowly degrades depending on its actual composition, other various factors. I have seen every type of bike frame material fail prematurely; usually do to poor materials, poor fabrication, and improper use.
That being said, CF frames are not designed for high speed impact damage, especially depending on where/how the frame is hit. A CF frame is designed to be quite strong, but only by design for a specific use. If a CF frame falls on its side and impacts a sharp or pointed edge it can damage the frame, especially if loaded/top heavy. Unfortunately, thin steel tubed frames (generally those with wall thicknesses well under 1.0mm) are susceptible to similar damage.
Chips are usually not related to the CF itself, but the protective/decorative finishes used to protect the frame (mininal impact, UV and other elemental exposure). The most insidious signs of CF frame failure are usually found within the material itself and internally to the frame: air pockets, delamination, micro-cracking. If you see an external crack you can be guanteed in most cases that that failure started long before that crack became apparent externally (barring an accident). In general and like bike helmets, if you have an accident you should dispose of the frame/helmet and get a new one.
Steel generally provides some sign of impending failure during usage wjereas CF tends to have catastrophic failure if not noticed during inspection. Unfortunately, the majority of damage is not able to be repaired like with a steel frame. I never recommend buying any used CF frame (especially mtb/gravel) that shows any signs of outward use/damage, and CF frames neing inspected 20 years after have shown signs of deterioration when "autopsied". Granted malers are improving building methods and the matrix. People will not being riding CF bikes made 20 years ago in another 20 years without knowing if they can hold up to normal use, whereas steel frames built 150 years ago are regularly still being used by those into classic bikes. Classic CF bikes will not be able to match that unless technology and materials improve.
The CF frames were initially designed as only being for professional use where the bikes are not used repetitively (often only used a couple times), and merely considered as throw away tools of the trade.
The reason they are now mass produced and sold to many who do not gain by their design advantage is simple: MONEY? The frames are generally overpriced by about 50% (comparable to the components that hang on them) considering how easy the majority are made once designs are developed for production due not requiring any artisan skills to making them (excepting custom designs and top end frames designed specifically to order).
Like much professional equipment, the frames are marketed to the general public as subtle means of nrainwashing people into thinking it will being into the same category of performance as the pros (e.g. buy the same golf club that the Masters champion uses and you to will be shooting under par from the pro tees). People's minds are frail and easily swayed by psychology into getting something they never could utilize as initially designed
(05-06-2026, 10:29 AM)rydabent Wrote: But the truth really is, they are mostly plastic resin with embedded carbon fibers. The other truth about CF bikes is the fact they are highly over rated and obscenely expensive, because they are the "in" thing right now.
(05-05-2026, 04:30 PM)SPINMAN Wrote: I believe the chips that you see are paint chips. Carbon fiber does not chip, it will, however, completely "explode"
Carbon fiber's reputation for being "fragile" is a bit of a paradox. In terms of absolute structural integrity and longevity, it is actually one of the most durable materials used in bicycle manufacturing. However, it behaves very differently from metals when pushed past its limits.
It's not that fragile-but!
First it is not reinforced plastic! Bad analogy. it is nearly four times as strong as aluminum. The "fragility" label usually stems from two specific mechanical behaviors:
Impact Sensitivity, CFRP is sensitive to concentrated impact damage.
Brittle Failure, Unlike steel or aluminum, which bend or "yield" before they break, carbon fiber has a low strain-to-failure rate. It remains perfectly stiff until it reaches its breaking point, at which it fails catastrophically (snapping rather than bending)
Fatigue Life, On the flip side, carbon fiber has an almost infinite fatigue life. Unlike aluminum, which eventually weakens and cracks after millions of vibration cycles, a properly maintained carbon frame will essentially never "wear out" from normal wear
Mechanical properties of the "T" rating!
The properties of carbon fiber depend heavily on the "tow" (the number of filaments) and the precursor used—most commonly Polyacrylonitrile (PAN).
| Grade | Tensile Strength (\text{MPa}) | Tensile Modulus (\text{GPa}) | Density (\text{g/cm}^3) |
|---|---|---|---|
| **Standard (T300)** | ~3,530 | ~230 | 1.76 |
| **Intermediate (T800S)** | ~5,880 | ~294 | 1.80 |
| **High Modulus (T1000G)** | ~6,370 | ~294 | 1.80 |
| **Ultra High (T1100G)** | ~7,000 | ~324 | 1.84 |
*Source: Adapted from Toray specifications and recent composite research (Sayam et al., 2022).*
For comparison, a typical aluminum alloy (6061-T6) has a tensile strength of roughly 310\text{ MPa} and a density of 2.70\text{ g/cm}^3. Carbon fiber provides significantly more strength at roughly **60% of the weight**.
A little technical but you can see the value in the strength.
(05-05-2026, 04:30 PM)SPINMAN Wrote: I believe the chips that you see are paint chips. Carbon fiber does not chip, it will, however, completely "explode"While the carbon fibers may have a long life, it is the plastic risen the quickly ages as all plastics go. The older they are, the more brittle they ar.
Carbon fiber's reputation for being "fragile" is a bit of a paradox. In terms of absolute structural integrity and longevity, it is actually one of the most durable materials used in bicycle manufacturing. However, it behaves very differently from metals when pushed past its limits.
It's not that fragile-but!
First it is not reinforced plastic! Bad analogy. it is nearly four times as strong as aluminum. The "fragility" label usually stems from two specific mechanical behaviors:
Impact Sensitivity, CFRP is sensitive to concentrated impact damage.
Brittle Failure, Unlike steel or aluminum, which bend or "yield" before they break, carbon fiber has a low strain-to-failure rate. It remains perfectly stiff until it reaches its breaking point, at which it fails catastrophically (snapping rather than bending)
Fatigue Life, On the flip side, carbon fiber has an almost infinite fatigue life. Unlike aluminum, which eventually weakens and cracks after millions of vibration cycles, a properly maintained carbon frame will essentially never "wear out" from normal wear
Mechanical properties of the "T" rating!
The properties of carbon fiber depend heavily on the "tow" (the number of filaments) and the precursor used—most commonly Polyacrylonitrile (PAN).
| Grade | Tensile Strength (\text{MPa}) | Tensile Modulus (\text{GPa}) | Density (\text{g/cm}^3) |
|---|---|---|---|
| **Standard (T300)** | ~3,530 | ~230 | 1.76 |
| **Intermediate (T800S)** | ~5,880 | ~294 | 1.80 |
| **High Modulus (T1000G)** | ~6,370 | ~294 | 1.80 |
| **Ultra High (T1100G)** | ~7,000 | ~324 | 1.84 |
*Source: Adapted from Toray specifications and recent composite research (Sayam et al., 2022).*
For comparison, a typical aluminum alloy (6061-T6) has a tensile strength of roughly 310\text{ MPa} and a density of 2.70\text{ g/cm}^3. Carbon fiber provides significantly more strength at roughly **60% of the weight**.
A little technical but you can see the value in the strength.
(05-05-2026, 12:33 PM)Criminal Wrote:Carbon fiber bike frames are 40% plastic (resin) by weight. Plastic ages and get brittle the older it gets.(05-04-2026, 02:23 AM)NaLya Wrote: I keep seeing ppl post pictures of chips and cracks
Are they all that fragile? And if so why buy them?
Enlighten the old man
Quick answer is no. Carbon fiber (CF) frames are not fragile, nor are they "plastic" as previously mentioned, but like anything there are higher and lower quality grades of materials used, as well as the quality of design and production.
When used properly for their intended purpose, and properly maintained and stored they are quite durable. It does not matter about the materials, everything degrades with age and use, just some quicker than others and it seems that CF frames are going to go to pot faster than steel, Ti, aluminum frames; but caution to those who think they can jump on a bike with 50+ year old wooden rims and expect no problems even if they look okay visually. I just saw a 1901 bike frame that initially used bamboo tubes in the frame (steel lugs), but the bamboo had been replaced with broomsticks. No idea why it was "rebuilt" with solid wood (bamboo damaged by age derioration, accident, etc.). Presently, the bike is rebuilt with bamboo again.
CF in general is quite simple; essentially only the fibers themselves which do not degrade, and a resin matrix ("glue") that binds the fibers. It is the resin that slowly degrades depending on its actual composition, other various factors. I have seen every type of bike frame material fail prematurely; usually do to poor materials, poor fabrication, and improper use.
That being said, CF frames are not designed for high speed impact damage, especially depending on where/how the frame is hit. A CF frame is designed to be quite strong, but only by design for a specific use. If a CF frame falls on its side and impacts a sharp or pointed edge it can damage the frame, especially if loaded/top heavy. Unfortunately, thin steel tubed frames (generally those with wall thicknesses well under 1.0mm) are susceptible to similar damage.
Chips are usually not related to the CF itself, but the protective/decorative finishes used to protect the frame (mininal impact, UV and other elemental exposure). The most insidious signs of CF frame failure are usually found within the material itself and internally to the frame: air pockets, delamination, micro-cracking. If you see an external crack you can be guanteed in most cases that that failure started long before that crack became apparent externally (barring an accident). In general and like bike helmets, if you have an accident you should dispose of the frame/helmet and get a new one.
Steel generally provides some sign of impending failure during usage wjereas CF tends to have catastrophic failure if not noticed during inspection. Unfortunately, the majority of damage is not able to be repaired like with a steel frame. I never recommend buying any used CF frame (especially mtb/gravel) that shows any signs of outward use/damage, and CF frames neing inspected 20 years after have shown signs of deterioration when "autopsied". Granted malers are improving building methods and the matrix. People will not being riding CF bikes made 20 years ago in another 20 years without knowing if they can hold up to normal use, whereas steel frames built 150 years ago are regularly still being used by those into classic bikes. Classic CF bikes will not be able to match that unless technology and materials improve.
The CF frames were initially designed as only being for professional use where the bikes are not used repetitively (often only used a couple times), and merely considered as throw away tools of the trade.
The reason they are now mass produced and sold to many who do not gain by their design advantage is simple: MONEY? The frames are generally overpriced by about 50% (comparable to the components that hang on them) considering how easy the majority are made once designs are developed for production due not requiring any artisan skills to making them (excepting custom designs and top end frames designed specifically to order).
Like much professional equipment, the frames are marketed to the general public as subtle means of nrainwashing people into thinking it will being into the same category of performance as the pros (e.g. buy the same golf club that the Masters champion uses and you to will be shooting under par from the pro tees). People's minds are frail and easily swayed by psychology into getting something they never could utilize as initially designed
(05-18-2026, 10:17 AM)rydabent Wrote: Carbon fiber bike frames are 40% plastic (resin) by weight. Plastic ages and get brittle the older it gets.
(06-22-2026, 09:45 AM)ReapThaWhirlwind Wrote: The best simple answer for this question is, yes.

(06-22-2026, 10:27 PM)Jesper Wrote:(06-22-2026, 09:45 AM)ReapThaWhirlwind Wrote: The best simple answer for this question is, yes.
The answer, as another stated, is no.
The author asked "Are they all that fragile?" No they are not. Is was not a specific question in comparison to any other material (unless I missed something).
If carbon fiber is so "simply" considered "fragile", than why is it used efficiently and successfully in various products (not just bike frames; aerospace, et al.) and at all levels of usage (from layman to professional)?
If carbon fiber was as bad as those in this thread make it sound then it would never have evolved into what is today or be used in such a vast manner.