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GMT material is the short name of glass mat reinforced thermoplastics. It is one of the composite that based on thermoplastic resin such as polypropylene or polyamide and reinforced by long glass fiber or continuous fiber. It is available as a plate sheet semi-finished product. The sheets are usually manufactured using a double belt press. Randomly oriented fiber mats made out of chopped or continuous glass fibers are impregnated with melted PP or with PP films in the film stacking process; they were being heated, pressed, and cooled into semi-finished composite.
GMT material is the short name of glass mat reinforced thermoplastics. It is one of the composite that based on thermoplastic resin such as polypropylene or polyamide and reinforced by long glass fiber or continuous fiber. It is available as a plate sheet semi-finished product. The sheets are usually manufactured using a double belt press. Randomly oriented fiber mats made out of chopped or continuous glass fibers are impregnated with melted PP or with PP films in the film stacking process; they were being heated, pressed, and cooled into semi-finished composite.
| Product Name | Reinforcement beam mould |
| Mold type | Compression mould , GMT MOULD |
| Cavity and core steel | 2311 (28-32HRC) |
| Slider/lifter/cams | 1.2344 (H13) |
| Cavity/imprint | 1 |
| Ejection system | Ejector pins, ejector plates driven by hydralic cylinders |
| Heating system | Oil heating system /steam and electrical are optional |
| Mold finish | Technical polishing grain 400 + chrome plating |
| Vacuum system | N/A |
| IMC system | N/A |
| Cycle time | 3 minutes |
| Mold life | 300000 shots |
| Mold type | Serial mold |
| Our Serive | MDF report / mold flow analysis |
| Weekly process report with photos | |
| Quality control team following project | |
| Trial report with video and free samples | |
| Sample and mould dimension report | |
| Optional service | bulk production |
| primer, top coating | |
| assembling & packing |
| Product Name | Reinforcement beam mould |
| Mold type | Compression mould , GMT MOULD |
| Cavity and core steel | 2311 (28-32HRC) |
| Slider/lifter/cams | 1.2344 (H13) |
| Cavity/imprint | 1 |
| Ejection system | Ejector pins, ejector plates driven by hydralic cylinders |
| Heating system | Oil heating system /steam and electrical are optional |
| Mold finish | Technical polishing grain 400 + chrome plating |
| Vacuum system | N/A |
| IMC system | N/A |
| Cycle time | 3 minutes |
| Mold life | 300000 shots |
| Mold type | Serial mold |
| Our Serive | MDF report / mold flow analysis |
| Weekly process report with photos | |
| Quality control team following project | |
| Trial report with video and free samples | |
| Sample and mould dimension report | |
| Optional service | bulk production |
| primer, top coating | |
| assembling & packing |
Using a GMT (Glass Mat Thermoplastic) mould has several advantages. Firstly, the material used in this type of mould is highly durable and can withstand even extreme temperatures. This makes it perfect for manufacturing parts that need to function in harsh environments or under high stress.
Another benefit of using GMT moulds is their ability to produce complex shapes with precision and accuracy. The process involves compressing layers of matting and thermoplastic resin into a mold, which then hardens into the desired shape. This allows manufacturers to create intricate designs that are difficult or impossible to achieve with other molding methods.
GMT moulding also produces lightweight components, making it an ideal choice for transportation applications where weight reduction is critical. Weight savings can have significant impacts on fuel efficiency, performance, and overall cost-effectiveness.
GMT molds offer excellent resistance to corrosion and chemicals, making them suitable for use in various industrial settings without compromising quality or longevity.
Using a GMT (Glass Mat Thermoplastic) mould has several advantages. Firstly, the material used in this type of mould is highly durable and can withstand even extreme temperatures. This makes it perfect for manufacturing parts that need to function in harsh environments or under high stress.
Another benefit of using GMT moulds is their ability to produce complex shapes with precision and accuracy. The process involves compressing layers of matting and thermoplastic resin into a mold, which then hardens into the desired shape. This allows manufacturers to create intricate designs that are difficult or impossible to achieve with other molding methods.
GMT moulding also produces lightweight components, making it an ideal choice for transportation applications where weight reduction is critical. Weight savings can have significant impacts on fuel efficiency, performance, and overall cost-effectiveness.
GMT molds offer excellent resistance to corrosion and chemicals, making them suitable for use in various industrial settings without compromising quality or longevity.
When it comes to choosing a GMT mould, there are several factors you should consider. The first thing to consider is the material you will be molding with. Different materials have different requirements when it comes to temperature and pressure, so make sure you choose a GMT mould that can handle the specific requirements of your material.
Another important factor to consider is the size and shape of the part you will be molding. Make sure that the GMT mould is capable of producing parts in the size and shape that you need.
You should also consider the production volume required for your project. If you need to produce large quantities of parts quickly, then a high-speed GMT mould may be necessary.
When it comes to choosing a GMT mould, there are several factors you should consider. The first thing to consider is the material you will be molding with. Different materials have different requirements when it comes to temperature and pressure, so make sure you choose a GMT mould that can handle the specific requirements of your material.
Another important factor to consider is the size and shape of the part you will be molding. Make sure that the GMT mould is capable of producing parts in the size and shape that you need.
You should also consider the production volume required for your project. If you need to produce large quantities of parts quickly, then a high-speed GMT mould may be necessary.
