REFAIR / AS : tel.053-523-5768 fax.053-523-5763 82, Gongdan 5-ro, Jillyang-eup, Gyeongsan-si, Gyeongsangbuk-do, 38474, Rep. of KOREA tel.+82-53-523-5768 fax.+82-53-523-5763 www.lailaps.co.kr
www.lailaps.co.kr
Advanced Carbon Composite Technology!
Carbon Braided Technology T4L has been trying to develop to fabricate near-net-shaped fiber preforms of complex shaped bike tube composite materials. We have also improved automation technology using the braiding technology. This is what we call robo-braiding system. In this technique, a braid with different ply-angles and variable numbers of lay ups is laid over a near-net-shaped mandrel. An unidirectional, bi-axial or tri-axial braid evolves after the mandrel has mechanically been shoved through the slot of a braiding machine. Load-to-Weight Optimized System(Braid) LWOS/LWOB Braiding technology has the following advantages. High torsional stiffness and a high impact dispersibility of an external force Safety / Reliability enhanced ride comfort. Integrated preform improve the life and light to prevent the shear delamination. Hybrid frame produced using a variety of super fibers Extreme physical properties of complex expression under stress conditions.
Carbon Composite * Lailaps 04 05
Robo-braidin 3-Dimensional Radial Braiding Technology T4L has developed a technology for producing a three-dimensional structure of the bicycle tube by using the carbon fiber through the development of proprietary technology for years. This is the only domestic technology that can automatically produce the structure of the various three-dimensional shape by using a carbon fiber. This technique is known as a method for manufacturing a lightweight, high-performance carbon fiber composite material of the cutting edge to be applied to the method for preparing the core ring structure(fuselage) of the aircraft frame. Related technology has also been applied in recent years, the supercar pillar (Pillar), the roof frame (Roof supprot), bumper reinforcement (Back Bumper) and so on. Carbon Lug System [ LFT stands for long fiber reinforced thermoplastics and is also referred to as LFP (long fiber reinforced thermoplastics pellet). LFT is produced through the pultrusion process, a continuous process in which a tape of fibers is impregnated with thermoplastic resins. It is produced in pellet form which can be used in various molding processes including injection molding. With LFT, the fiber inside a molded product is longer compared to short fiber reinforced composite materials and provides superior mechanical properties. LFT enables the manufacture of products reinforced with high fiber content and is being highlighted as a metal substitute Robo-Braiding System [ 3-Dimensional Radial Braiding & Synchronous RTM System Automatic production system for forming three-dimensional tube structure of bike frame by using a carbon fiber.
g System Carbon Composite * Lailaps 06 Robo-Braiding system[net-shape preforming] is suitable for complete automation. In this technique, a braid with different ply-angles and variable numbers of lay ups is laid over a near-net-shaped mandrel. An unidirectional, bi-axial or tri-axial braid evolves after the mandrel has mechanically been shoved through the slot of a braiding machine. 07
H I A G C F WB FC D SIZE 487 507 527 547 567 487 507 527 547 567 Seat Tube Length A 507 524 530 537 550 Top Tube Length B 405 405 405 405 405 Chain Stay Length C 54 60 62 65 69 Hanger Drop D 351 367 370 373 387 Reach E 70 70 71 71 72 Head Tube Angle F 71 72 72 72 73 Seat Tube Angle G 148 157 172 188 198 Head Tube Length I 576 587 591 599 610 Front Center FC 974 984 988 995 1006 Wheel Base WB COLOR Matt Black+Gloss+Black Decal Matt Black+Gloss+Green Decal Gloss+Matt Black+White Decal Gloss+Matt Black+Red Decal Optimized Road Bike Geometry
Carbon Composite * Lailaps 08 09
LCR 900 Carbon Composite * Lailaps 10 11 1-1/8 DURA-ACE VP-A01AC, 1-1/8, SEMI-CARTRIDGE CARBON LOOKING, PU/EVA DURA-ACE DURA-ACE, CN-HG-900 487 / 507 / 527 / 547 / 567mm S-XBK-6212 DURA-ACE ALX-473 LF-71-1/8 27.2 350mm DURA-ACE Lightweight 7075 axle, 420m DURA-ACE DURA-ACE 700C 23C
LCR 680 Carbon Composite * Lailaps 12 13 1-1/8 Ultegra VP-A01AC, 1-1/8, SEMI-CARTRIDGE CARBON LOOKING, PU/EVA Ultegra Ultegra, CN-HG-701 487 / 507 / 527 / 547 / 567mm S-XBK-6212 Ultegra ALX-473 LF-71-1/8 27.2 350mm Ultegra Lightweight 7075 axle, 420m Ultegra Ultegra 700C 23C
LCR 580 Carbon Composite * Lailaps 14 15 1-1/8 AL 105 VP-A01AC, 1-1/8, SEMI-CARTRIDGE CARBON LOOKING, PU/EVA 105 DURA-ACE, CN-HG-600 487 / 507 / 527 / 547 / 567mm S-XBK-6212 105 ALX-440 LF-71-1/8 27.2 350mm 105 Lightweight 7075 axle, 420m 105 105 700C 23C
LCR 350 1-1/8 487 / 507 / 527 / 547 / 567mm LF-71-1/8 AL 420m AL CARBON LOOKING, PU/EVA S-XBK-6212 AL 27.2 350mm SORA SORA SORA SORA SORA SORA VP-A01AC, 1-1/8 SEMI-CARTRIDGE SORA, CN-HG-53 ALX-265 2, 700C 23C
Carbon Composite * Lailaps 16 17
FLAT LCR URBAN 1-1/8 487 / 507 / 527 / 547 / 567mm LF-71-1/8 AL Flat, 600m AL CARBON LOOKING, PU/EVA S-XBK-6212 AL 27.2 300mm SORA Flat SORA SORA SORA Flat SORA SORA VP-A01AC, 1-1/8 SEMI-CARTRIDGE SORA, CN-HG-53 ALX-265 2, 700C 23C
Carbon Composite * Lailaps 18 19
Equipment Lailaps 42 36 22mm 2 CR 2032 80 Hrs 160 Hrs Lailaps 27.2 350mm Lailaps 42 36 22mm 2 CR 2032 80 Hrs 160 Hrs Lailaps 280 140mm Lailaps 27.2 300mm
Carbon Composite * Lailaps 20 Lailaps 31.8mm Lailaps UD 400, 420, 440 31.8mm Lailaps AL+Carbon 31.8 90, 100, 110mm 21 Lailaps AL Lailaps 32mm AL 7075 400, 420, 440 31.8mm Lailaps AL2014-T6 3D-FORGED +/-6 31.8 70, 80, 90, 100, 110, 120mm Lailaps AL-7075 600 31.8mm Lailaps 3K 5mm, 10mm Lailaps HDPP Lailaps PU/EVA 3 200cm
Carbon Bike Repair Experts
Carbon Composite * Lailaps 22 23