
Mastering the Pitching Moment for Enhanced Bicycle Wheel Aerodynamics and Safety
April 13, 2023In the world of high-performance carbon fiber composites, the details make all the difference. One of these critical details is the width of the prepreg tape used in filament winding processes. At VENN, our transition to 1k towpreg (tape containing 1,000 carbon fibers) represents a significant advancement in our manufacturing capabilities, though it comes with its own set of challenges and trade-offs.
Understanding Tape Width in Filament Winding
Traditional filament winding typically uses wider tapes containing 3k, 6k, or even 12k fibers. These wider tapes offer faster production times and lower material costs, which explains their prevalence in the industry. However, the pursuit of perfect surface finish and optimal structural properties has led us to explore narrower alternatives.
The Advantages of 1k Towpreg
Superior Surface Quality
The narrower 1k tape allows for more precise fiber placement and better control over the fiber architecture. Think of it as painting with a finer brush – you can achieve much more detail and precision. This precision directly translates to superior surface quality, allowing us to achieve our signature Class-A finish without requiring clear coat to hide imperfections.



Enhanced Gas Permeability
During the curing process, resins release small amounts of gas. With wider tapes, these gases can become trapped, creating voids or surface imperfections. The 1k towpreg creates natural micro-channels between tape layers, allowing gases to escape more effectively. This results in a more uniform structure and better compaction.
Improved Fiber Volume Control
Narrower tapes enable better control over fiber volume in critical areas of the rim. This precision allows us to optimize the structure for both strength and weight, ensuring that every gram of material serves a purpose.
The Challenges
Production Complexity
Working with 1k towpreg significantly increases production time. The winding process must lay down more passes to cover the same area, requiring extremely precise control over tension and positioning. This demands more sophisticated winding equipment and control systems.

Cost Implications
Narrower tapes generally come with higher material costs, not just in the base material but also in the more complex prepregging process required to produce them. Additionally, the slower production times increase manufacturing costs.
Quality Control Demands
The use of narrower tapes requires even more stringent quality control measures. Any slight variation in tension or positioning becomes more visible in the final product, demanding exceptional precision in our manufacturing process.
The Mold Surface Challenge
One of the most critical aspects of achieving a Class-A surface finish lies in the mold itself. Even with perfect fiber placement, if the mold surface isn’t absolutely flawless, the final product won’t be either. This has led us to explore various surface finishing techniques:

Micropolishing
Traditional mechanical polishing can only achieve certain levels of surface finish. We’ve had to develop specialized micropolishing techniques that work at almost microscopic levels to achieve the surface quality required for our uncoated finish.
Electroplating
In some cases, even advanced polishing isn’t enough. We’ve experimented with electroplating mold surfaces, which can provide an exceptionally smooth finish that’s also extremely durable. However, this process adds complexity and cost to mold production.

Looking to the Future
The transition to 1k towpreg represents a significant investment in quality and performance. While it presents certain challenges, we believe the benefits – particularly in surface quality and structural optimization – justify the additional complexity and cost. As manufacturing technology continues to evolve, we expect to see further refinements in this process, potentially leading to even better results.
For our customers, this means receiving products that not only perform at the highest level but also showcase the beauty of perfectly executed carbon fiber manufacturing. The uncoated Class-A finish on our rims isn’t just about aesthetics – it’s a testament to the precision of our manufacturing process and our commitment to pushing the boundaries of what’s possible in carbon fiber technology.
What are your thoughts on the trade-offs between manufacturing efficiency and ultimate product quality? We’re always interested in hearing perspectives from both industry professionals and enthusiasts who appreciate the technical aspects of carbon fiber manufacturing.