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Compression mold is a manufacturing process used in the automotive industry to create various parts, including footstep. This process involves the use of heat and pressure to compress raw materials into a specific shape or form.
The first step in compression mold for automotive footstep is selecting the right type of material. The most commonly used materials are rubber, plastic, and composite materials. These materials need to be heated properly before they can be molded.
Once this is done, the mold cavity is filled with heated material that's then compressed using hydraulic pressure. The compression force applied depends on the desired thickness and size of the product being created.
After applying pressure for some time, it's important to give enough cooling time so that material can set into its final shape. Once cooled down completely it becomes hard enough not only as per required shape but also durable for practical usage in automobiles.
Compression mold plays an essential role in creating high-quality automotive footsteps that offer durability and longevity while ensuring passenger safety during their entry & exit from cars.
Compression mold is a manufacturing process used in the automotive industry to create various parts, including footstep. This process involves the use of heat and pressure to compress raw materials into a specific shape or form.
The first step in compression mold for automotive footstep is selecting the right type of material. The most commonly used materials are rubber, plastic, and composite materials. These materials need to be heated properly before they can be molded.
Once this is done, the mold cavity is filled with heated material that's then compressed using hydraulic pressure. The compression force applied depends on the desired thickness and size of the product being created.
After applying pressure for some time, it's important to give enough cooling time so that material can set into its final shape. Once cooled down completely it becomes hard enough not only as per required shape but also durable for practical usage in automobiles.
Compression mold plays an essential role in creating high-quality automotive footsteps that offer durability and longevity while ensuring passenger safety during their entry & exit from cars.
| Product Name | Footsteo SMC Mold |
| Mold type | Compression mould , RTM MOULD |
| Cavity and core steel | 1.2738 (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 | Footsteo SMC Mold |
| Mold type | Compression mould , RTM MOULD |
| Cavity and core steel | 1.2738 (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 |
Compression mold is a widely used technique in the automotive industry for creating various components such as footstep, bumper covers, and dashboard panels. This process involves placing pre-measured materials into a heated mold that is then compressed under high pressure until it takes on the desired shape.
One of the primary advantages of using compression mold for automotive parts is its ability to produce large quantities with minimal waste. Additionally, this process allows manufacturers to create complex shapes and designs that would be difficult or impossible with other manufacturing methods.
Compression molded parts are also known for their durability and resistance to wear and tear. These qualities make them an ideal choice for exterior car components that need to withstand harsh weather conditions and frequent use.
Compression mold has become an essential part of modern automotive manufacturing due to its efficiency, versatility, and cost-effectiveness. As technology continues to advance, we can expect even more innovative uses for this process in creating new automotive products that meet the demands of today's consumers.
Compression mold is a widely used technique in the automotive industry for creating various components such as footstep, bumper covers, and dashboard panels. This process involves placing pre-measured materials into a heated mold that is then compressed under high pressure until it takes on the desired shape.
One of the primary advantages of using compression mold for automotive parts is its ability to produce large quantities with minimal waste. Additionally, this process allows manufacturers to create complex shapes and designs that would be difficult or impossible with other manufacturing methods.
Compression molded parts are also known for their durability and resistance to wear and tear. These qualities make them an ideal choice for exterior car components that need to withstand harsh weather conditions and frequent use.
Compression mold has become an essential part of modern automotive manufacturing due to its efficiency, versatility, and cost-effectiveness. As technology continues to advance, we can expect even more innovative uses for this process in creating new automotive products that meet the demands of today's consumers.
