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Is there a future for injection molding products? Cosmetic packaging company supplies
by:Lisson
2021-04-07
Advances in polymers and injection molding skills have promoted the widespread use of plastics in the medical profession. All sectors of the medical profession have accepted the advantages of plastics and hope to participate in more plastics in future plans. For example, low-cost plastics enabled the invention of disposable plastic devices, injection devices, gloves and gowns, which in turn helped reduce the spread of infections in the hospital environment. Plastics have also replaced glass in various laboratory consumables, improving laboratory safety and reducing the cost of consumables.
Similarly, high-functional polymers also help extend the service life and conflict-free movement of existing artificial joints. Handheld medical equipment and instruments also use plastics to reduce equipment weight, improve functions, and/or reduce equipment costs.
The current plastic innovation in the medical profession shows no signs of slowing down, because ongoing research on innovative polymers, improved processing skills and new post-processing skills is expanding the possibilities of plastics in medical equipment and components.
The changing process:
The injection molding process continues to develop. In the planning stage, rapid prototyping allows moldmakers to create physical prototypes to verify shape, fit, and function before finalizing the mold plan. The advancement of mold simulation software enables molders to have a specific understanding of mold filling and helps to find problems early in the planning stage.
The advancement of control skills has improved repeatability and better control of process variables, which translates into accurate molding of even the most messy parts. The advancement of these molding skills together shortened product development time, lowered development costs, and opened the door to a series of new uses.
Development of polymer science:
Polymer science continues to be an exciting field to develop in medical injection molding. New materials and additives increase stability, reduce shrinkage, and introduce other functions to improve the functions used in molding. In addition, the mechanical strength of polymers continues to develop, making them a viable alternative to a range of metals in use.
In addition to the physical properties of the materials, the next-generation polymer formulations also include common functional properties, such as adding antibacterial materials to the injection molded plastics to inhibit the growth of bacteria on the injection molded parts.
Study on medicinal plastics:
Another research area of u200bu200binjection molding machines is pharmaceutical plastics. These plastics are suitable for ingestion or implantation, and provide controlled release of drugs to the host. For example, bioabsorbable polymers can dissolve or stay in the body, help support bone/arrange growth, or be used to make soluble scaffolds.
Internet of Things-Integrated Medical Equipment:
In view of the steady growth of the home medical equipment profession and the new advances in medical skills, injection-molded medical equipment plays a key role in IoT medical skills. From long-distance medical treatment to wearable or portable medical devices that collect personal data and notify physicians or family members in an emergency, monitoring patients from home has become easier due to today's Internet of Things integration. As more and more people begin to seek self-managed care, the demand for networked medical devices and wearable devices will only grow with the demand for high-quality plastic planning.
Post molding process:
The development of various post-molding processes has further expanded the applicability of plastics in the medical profession. Processes such as ultrasonic welding and laser micromachining continue to develop and are compatible with a range of medical plastics. These secondary operations simplify the assembly of messy plastic parts and provide new possibilities for equipment planners.
The prospect of medical injection molding is bright. At Triumph, we understand the needs of the profession and maintain a firm commitment to the field of medical devices, as evidenced by our rich experience in planning and processing various medical-grade polymer components.
Our white paper, the importance of scientific molding in the manufacture of medical devices, specifically introduces how experienced injection molding machines like Kaysun can improve existing medical equipment or components, or assist in the need for quality, precision and functionality. Introduce new products into the profession. Click the button below to access your copy immediately!
Similarly, high-functional polymers also help extend the service life and conflict-free movement of existing artificial joints. Handheld medical equipment and instruments also use plastics to reduce equipment weight, improve functions, and/or reduce equipment costs.
The current plastic innovation in the medical profession shows no signs of slowing down, because ongoing research on innovative polymers, improved processing skills and new post-processing skills is expanding the possibilities of plastics in medical equipment and components.
The changing process:
The injection molding process continues to develop. In the planning stage, rapid prototyping allows moldmakers to create physical prototypes to verify shape, fit, and function before finalizing the mold plan. The advancement of mold simulation software enables molders to have a specific understanding of mold filling and helps to find problems early in the planning stage.
The advancement of control skills has improved repeatability and better control of process variables, which translates into accurate molding of even the most messy parts. The advancement of these molding skills together shortened product development time, lowered development costs, and opened the door to a series of new uses.
Development of polymer science:
Polymer science continues to be an exciting field to develop in medical injection molding. New materials and additives increase stability, reduce shrinkage, and introduce other functions to improve the functions used in molding. In addition, the mechanical strength of polymers continues to develop, making them a viable alternative to a range of metals in use.
In addition to the physical properties of the materials, the next-generation polymer formulations also include common functional properties, such as adding antibacterial materials to the injection molded plastics to inhibit the growth of bacteria on the injection molded parts.
Study on medicinal plastics:
Another research area of u200bu200binjection molding machines is pharmaceutical plastics. These plastics are suitable for ingestion or implantation, and provide controlled release of drugs to the host. For example, bioabsorbable polymers can dissolve or stay in the body, help support bone/arrange growth, or be used to make soluble scaffolds.
Internet of Things-Integrated Medical Equipment:
In view of the steady growth of the home medical equipment profession and the new advances in medical skills, injection-molded medical equipment plays a key role in IoT medical skills. From long-distance medical treatment to wearable or portable medical devices that collect personal data and notify physicians or family members in an emergency, monitoring patients from home has become easier due to today's Internet of Things integration. As more and more people begin to seek self-managed care, the demand for networked medical devices and wearable devices will only grow with the demand for high-quality plastic planning.
Post molding process:
The development of various post-molding processes has further expanded the applicability of plastics in the medical profession. Processes such as ultrasonic welding and laser micromachining continue to develop and are compatible with a range of medical plastics. These secondary operations simplify the assembly of messy plastic parts and provide new possibilities for equipment planners.
The prospect of medical injection molding is bright. At Triumph, we understand the needs of the profession and maintain a firm commitment to the field of medical devices, as evidenced by our rich experience in planning and processing various medical-grade polymer components.
Our white paper, the importance of scientific molding in the manufacture of medical devices, specifically introduces how experienced injection molding machines like Kaysun can improve existing medical equipment or components, or assist in the need for quality, precision and functionality. Introduce new products into the profession. Click the button below to access your copy immediately!
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