TRIGON has its own high-grade materials and technology to optimize composite design and fabrication.
Different technologies are applied on our products, to see used technologies, see particular product.
After more than 20 years of experience manufacturing carbon-fiber composites for bicycle frames and components, TRIGON is undoubtedly a pioneer of this industry. From great experience comes a mastering of techniques and process critical to carbon-fiber parts development and production master (not a mass producer): we are exclusive in our approach to parts processing and selection of raw materials.
TRIGON’s engineers complete each product cycle by reinvesting the expertise and insight from production into each new design to fully optimize them.
Take a look at both the visible-quality of our products and their features to see the genuine value-added benefits.
These are the reasons why TRIGON is an OEM supplier to the World’s leading brands. | |
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TRIGON has its own high-grade materials and technology to optimize composite design and fabrication.
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NCC– Nano Carbon Composite
Nano Carbon - The next level of carbon material! Nano carbon is stronger, more flexible and lighter than our Venus C8 composite. The nano carbon allows our engineers to build stronger, lighter and stiffercarbon parts with a higher strength then never before. Nano Carbon Composite is 27% stronger than other carbon materials.
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VENUS C8 – Carbon Composite
The New generation Venus C8 carbon fibre with additives, developed to provide a Super strength, Super-modulus and Super-fatigue strength materials. Resulting in even greater strength to weight ration and an approximate 20% improved the mechanical properties of Trigon's Venus C7 composite.
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VENUS C7
Carbon Composite High modulus and high strength prepeg raw material, cured at high temperatures using Trigon proprietary forming techniques, producing a composite with unsurpassed fatigue resistant and vibration damping.
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FDC
Flex Directional Control Careful fibre orientation allows us to tune lateral stiffness, vertical compliance, toughness and damping.
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ENCRIM
Carbon-Alloy Fusion Super-strength bonds between composites and alloys utilize extremely tough aerospace adhesives with precision designed and manufactured alloy interfaces.
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HIPACT
High-Pressure Solid-Compaction By using solid inner forms during curing stage, compared to typical air-bladder processes we produce high-pressure compaction which means more consistent products with denser material and minimal voids.
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FEA
Finite Element Analysis Trigon engineers, makes use of sophisticated computer software, to establish design optimization though a process of virtual error estimation. This enables engineers to establish the best possible strength to weight ratio, carbon lay-up and design improvement to manufacture safe but high performance products. Instance end Editable.
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TRIGON applies its composite materials into structural shaping optimized for bicycles.
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OBLLIX
Geometric Cross-SectionTubing cross-section varied in shape depending in the needs of strength, stiffness or compliance.
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MONO-BOX
Chain Stay Box Structure Both chain stays formed as a single mono-Stay unit with a massive box-section connection to the BB shell for extreme lateral stiffness.
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INTEGRATED
Unified StructuresIntegration of frame parts and components, made feasible by composites, having high-strength, low-weight and striking style.
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