Customization: | Available |
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Fiberglass Type: | E-Glass |
Certification: | ISO |
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Glass fiber material has good plastic properties. The housings of many types of equipment can be made of fiberglass. Such as glass fiber reinforced plastic shell chairs, glass fiber reinforced plastic medical device shells, glass fiber reinforced plastic hip support stools, etc.
The application of glass fiber reinforced plastic in medical application not only has the aesthetic advantages of glass fiber reinforced plastic, but also is very beneficial to cleaning. Even if the surface is dirty, we can gently wipe it with a rag to make it very clean.
Glass fiber is also very light, only a quarter of the weight of steel. Therefore, glass fiber manufacturers and their customers can save a lot of freight. The fat reducer is made of glass fiber material, which can reduce weight and fat consumption.
The glass fiber hand layup process is renowned for its strength, durability, and corrosion resistance. It is lightweight and easy to manufacture, making it an ideal material for medical equipment casings and sleeves. The following are some characteristics of the hand layup process:
1. Corrosion resistance: Glass fiber has high corrosion resistance and is an ideal material for medical equipment that may be exposed to harsh chemicals.
2. Lightweight: Fiberglass is lighter than other traditional materials such as metals, making it easier to transport and move.
3. High strength to weight ratio: Glass fiber has a high strength to weight ratio, making it stronger than many metals.
4. Easy to manufacture: Fiberglass is easy to manufacture and can easily create complex shapes and designs.
The process of manual lamination of fiberglass involves manually applying layers of fiberglass and resin composite materials onto molds or surfaces. These layers are established until the required thickness and strength are achieved. Once the layer solidifies, remove the product from the mold and trim it into the desired shape. This process includes several steps, including:
1. Mold preparation: Mold preparation is achieved by using a release agent to prevent fiberglass from sticking to the mold.
2. Apply gel coating: apply gel coating as the first layer on the mold. The gel coating provides a smooth and durable surface that can be seen on the finished product.
3. Laying glass fiber: lay the glass fiber layer on the gel coating manually. Each layer is saturated with resin to ensure appropriate adhesion.
4. Curing: Cure the product in a controlled environment until it reaches the required strength and hardness.
5. Precision machining: Trimming, polishing, and polishing the product to achieve its purpose
The fiberglass hand layup process is commonly used in the manufacturing of medical equipment, including covers and casings. Here are some applications of hand laminated fiberglass: