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Suzhou Krosino Mechatronic Technology Co., Ltd.
Headquartered in Jiangsu, China, Krosino is a fast-growing supplier specializing in CNC machining, custom machinery parts, carbon fiber components, automated equipment assembly, and industrial product solutions. With a factory area of 1,800 square meters, over 30-50 skilled employees, and an annual revenue exceeding US$1,500,000, Krosino collaborates with more than 100 cooperative suppliers and specializes in OEM brands. Our products are trusted across mechanical and construction industries and exported to Europe, North America, South America, Asia, and beyond.
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1800
Factory Area
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30~50
Employees
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US$1,500,000+
Annual Revenue
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100+
Cooperative Suppliers
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OEM
Brands
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Choose from hundreds of manufacturing materials including various grades of thermoplastics, metals, and elastomers. When selecting a material, consider the material properties, manufacturability characteristics, cosmetic appearance, and cost.
Carbon fiber is a super-strong yet lightweight material. It is five times stronger than steel, twice as stiff, and around 1.5 times lighter.
Carbon Fiber is a polymer and is sometimes known as graphite fiber. It is a very strong material that is also very lightweight. Carbon fiber is five-times stronger than steel and twice as stiff. Though carbon fiber is stronger and stiffer than steel, it is lighter than steel, making it the ideal manufacturing material for many parts. These are just a few reasons why carbon fiber is favored by engineers and designers for manufacturing.
Carbon fiber is made of thin, strong crystalline filaments of carbon that is used to strengthen material. Carbon fiber can be thinner than a strand of human hair and gets its strength when twisted together like yarn. Then it can be woven together to form cloth and if needed to take a permanent shape, carbon fiber can be laid over a mold and coated in resin or plastic.
Carbon fiber is made from a process that is part chemical and part mechanical. It starts by drawing long strands of fibers and then heating them to a very high temperature without allowing contact to oxygen to prevent the fibers from burning. This is when the carbonization takes place, which is when the atoms inside of the fibers vibrate violently, expelling most of the non-carbon atoms. This leaves a fiber composed of long, tightly inter-locked chains of carbon atoms with only a few non-carbon atoms remaining.
Almost anything. Because of its special characteristics, carbon fiber is very popular in many industries such as aerospace, automotive, military, and recreational applications.
| Characteristics | Applications |
|---|---|
| Good vibration damping, strength, and toughness | Loudspeakers for Hi-fi equipment, pickup arms, robot arms, Audio equipment |
| Physical strength, specific toughness, light weight | Aerospace, road and marine transport, sporting goods, bikes |
| Non-Magnetic Electromagnetic | Large generator retaining rings, radiological equipment |
| High dimensional stability, low coefficient of thermal expansion, and low abrasion | Missiles, aircraft brakes, aerospace antenna and support structure, large telescopes, optical benches, waveguides for stable high-frequency, precision measurement frames |
| Fatigue resistance, self-lubrication, high damping | General engineering, Textile machinery, etc. |
| Electrical conductivity | Automobile hoods, novel tooling, casings and bases for electronic equipments, EMI and RF shielding, brushes |
| Chemical inertness, high corrosion resistance | Chemical industry; nuclear field; valves, seals, and pump components in process plants |
| UV Resistant Inhibited | Medical applications in prostheses, surgery and x-ray equipment, implants, tendon/ligament repair |
Explore our comprehensive range of services:
To better ensure the safety of your goods, professional, environmentally friendly, convenient, and efficient packaging services will be provided. Different packing types according to customers' demands to protect their goods far away from damage.
Lead Time: 5-30 days (based on order complexity)
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| Shock Proof Bubble Film Board | Packing Belt | Plywood Cases |
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OTHER PACKING TYPES COULD BE CUSTOMIZED TOO |
| Plywood Cases | Pallets |
Explore some of our successful customer projects.
View Cases3K means there are 3,000 filaments per "tow", 12K means there are 12,000. They are decussated like a web. 3K weave carbon fiber is most well known. The different weaving way makes the carbon fibers in different appearance and performance.
A standard 3k tow is typically 0.125” wide, so that is a lot of fiber packed into a small space. A 6k tow has 6,000 carbon filaments, a 12k has 12,000 filaments, and so on. This large number of high-strength fibers bundled together is what makes carbon fiber such a strong material.
The 12K is the widest weave we offer, and therefore stiffer than 3K. The wider weave costs less in production, the 12K layer is slightly less expensive than 3K. The UD fiber has maximum strength when running in the same direction.
A unidirectional weave creates a carbon fiber sheet that's very strong in the direction of the fibers, but weak in the opposite direction. Plain and twill weaves, on the other hand, have more uniform strength since they're strongest at the points where the fibers cross in either direction.
T700 carbon fiber is a high tensile strength material that can be used singly as a material to make into products. Because T700 is very flexible, it can greatly reduce the probability of cracking and cracking of the produced carbon fiber products. Therefore, the T700 material is deeply loved by FPV drone enthusiasts.
T800 carbon is stronger and lighter and 11% stronger than T700 in terms of tensile strength – the load a mast is under when elongated/flexing. It also delivers a swifter return response reaction. T800 is also slightly stronger than T700 in terms of compressive strength too.
For bikes and bike parts, T700 carbon fiber can be used singly as a material to make into products. T800 are not suitable to be used to make products separately because while it is very light, it is also very stiff and brittle.
It's true that carbon fiber is not itself a plastic. It's an incredibly small diameter fiber (or filament) made mostly of carbon atoms.
Carbon fiber parts are also significantly more expensive than aluminum because of the high cost to produce carbon fiber and the great skill and experience involved in creating high-quality composite parts.
Making carbon fiber is a highly-specialized process. For that reason, not just anyone can work as a carbon fiber manufacturer. The machinery needed to produce carbon fiber is also quite advanced. These machines can cost thousands of dollars, driving up the price of the end product.
Each weave contains unique properties that make it great for use in some designs and not a good choice for others. Many factors must be considered when determining which carbon fiber weave should be used for a particular function. These factors include strength, formability, stability, and crimp.
By its very nature, carbon is black, and consequently as nice as any lacquered finish might look, if you want it in any other colour you have to resort to painting over the surface. The only way to change carbon fiber's appearance is by blending it with something, with what you might ask? Well, some coloured aramid fiber of course.
