What is Tooling? And Why Is It Essential to Plastic Injection ... - injection to
Author:gly Date: 2024-10-15
Given that injection molding and additive manufacturing allows for consistent production, you are sure to avoid the risks of ill-fitting or improperly created implants and other parts with our services.
Polyethylene (PE) is a versatile, durable medical-grade plastic polymer composed of thousands of ethylene polymers, giving it impressive tensile strength and rigidity. PE is also highly compatible with biological tissues and can withstand harsh environmental conditions, including sterilization. Thanks to these properties, PE is widely used in the medical field for manufacturing joint prostheses, connectors, tubing, pharmaceutical containers, and more.
From rapid prototyping to product creation at scale, Xcentric, together with Quickparts, brings speed and scale to your prototype, parts, and production projects.
Plastic injection molding involves melting plastic polymers at high temperatures to create sterile and contaminant-free medical equipment. By reshaping the plastics in aluminum or steel molds, manufacturers can produce precise and customized medical devices that meet the highest standards of hygiene.
Polyetheretherketone (PEEK) is a high-quality thermoplastic known for its exceptional resistance to harsh environments, including radiation, high temperatures, chemicals, and wear and tear conditions. PEEK is perfect for creating medical and surgical implants and offers impeccable dimensional stability, even after being exposed to stress.
Becoming part of Quickparts expands the capabilities and expertise Xcentric offers, delivering injection molding, CNC machining, and other critical services to customers across the globe.
Liquid silicone injection molding involves heating silicone to a liquid state and then molding it into various shapes, making it a versatile solution for developing medical products. Silicone, a plastic polymer, is specifically designed to meet the needs of the medical industry. However, it’s important to note that silicone molds may not be as durable as aluminum or steel molds, making this technique more suitable for small quantities and initial prototyping stages.
Overmolding is an advanced technique that involves molding one or two components over an existing structure, resulting in a strong and durable grip. This two-step process, also known as two-shot molding, may have a longer production cycle, but the benefits are well worth it. With overmolding, manufacturers can create ergonomic handles to improve the comfort of everyday devices, which adds value and functionality to a wide range of items.
Medical equipment has a lot to do with the quality of healthcare provided. That is why prototyping is a crucial part of the manufacturing process for validating design decisions and making modifications. If you want your components to perform at their best, look no further than Xcentric, a US-based medical plastic injection molding company.
We offer extensive expertise in serving the medical industry through injection molding parts and prototypes, ensuring we meet your needs for every project.
When it comes to medical products, such as syringes, gloves, and masks, the ability to produce high volumes with consistency is crucial. This is where injection molding excels. With this technique, once the mold is created, thousands of identical parts can be produced without the need for maintenance.
The medical injection molding process involves melting medical-grade plastics and molding them into the desired shape of medical devices. This process creates strong, durable equipment with impeccable surface finishes and precise measurements.
Injection molding is not only automated, but it also significantly reduces labor costs. With computer-controlled precision, each part is efficiently produced, resulting in lower costs per unit.
We have worked with the leading manufacturers serving the healthcare industry for 25 years, including diagnostic laboratories and medical device companies. Our know-how in prototyping and medical device molding – coupled with our ever-growing production capacities here in the US – allows us to prototype, injection mold, and 3D-print parts of any complexity.
We also use different external services like Google Webfonts, Google Maps, and external Video providers. Since these providers may collect personal data like your IP address we allow you to block them here. Please be aware that this might heavily reduce the functionality and appearance of our site. Changes will take effect once you reload the page.
Because these cookies are strictly necessary to deliver the website, refusing them will have impact how our site functions. You always can block or delete cookies by changing your browser settings and force blocking all cookies on this website. But this will always prompt you to accept/refuse cookies when revisiting our site.
The merging of Quickparts and Xcentric helps support customers’ continued growth and proficiency through improved U.S.-based, in-house, and quick-turnaround production. From 3D printing to injection molding, we do it all.
Injection molding guarantees tight tolerances and dimensional accuracy, which are crucial in the medical field. With injection molding, even the smallest deviations can be avoided, reducing the risk to patients.
Medical injection molding ensures that the produced components meet all necessary regulatory requirements set by the FDA.
We may request cookies to be set on your device. We use cookies to let us know when you visit our websites, how you interact with us, to enrich your user experience, and to customize your relationship with our website.
It can take as little as five days to create your prototypes so that you can handle potential compliance issues early on and bring your product to market faster. Both prototyping and medical device injection molding are carried out at our ISO-certified locations in Michigan.
We provide you with a list of stored cookies on your computer in our domain so you can check what we stored. Due to security reasons we are not able to show or modify cookies from other domains. You can check these in your browser security settings.
Polycarbonate (PC) is transparent and has excellent mechanical properties. It’s tough, flexible, and resistant to abrasion, breakage, and temperature. Polycarbonate is also highly compatible with bodily tissues, making it ideal for manufacturing various medical equipment, from clear masks to protective gear and oxygenators.
These cookies are strictly necessary to provide you with services available through our website and to use some of its features.
We fully respect if you want to refuse cookies but to avoid asking you again and again kindly allow us to store a cookie for that. You are free to opt out any time or opt in for other cookies to get a better experience. If you refuse cookies we will remove all set cookies in our domain.
Similar to overmolding, the insert molding technique involves molding a secondary component over an existing part, or the insert. What sets insert molding apart is that it is a single process and can be used with various materials, such as plastics, metals, or alloys.
Did you know that injection molding is revolutionizing the medical device industry? This innovative manufacturing process ensures the creation of high-quality, precise, and cost-effective medical devices.
As a combined company, Quickparts and Xcentric offer an in-house, end-to-end solution from first prototype to short-run production, offering more to capabilities and benefits to customers both domestically and worldwide.
As an innovator of on-demand digital manufacturing, Xcentric offers rapid injection molding, CNC machining, and additive manufacturing services from their Michigan facilities in the USA.
Silicone, a unique chemically inert compound similar to synthetic rubber, offers exceptional mechanical properties and compatibility with biological tissues. With its exceptional flexibility, silicone is the go-to medical-grade plastic polymer for manufacturing a wide range of products and devices, such as catheters, connectors, and tubing.
Excellent manufacturability is a must whether you are into the production of medical testing equipment, storage containers, or surgical tools. Otherwise, you may face warranty claims, litigation, and even the worst-case scenarios involving life-threatening concerns due to poorly made parts.
No matter how impeccable your pieces look on paper, they do not always translate into flawless parts. By leveraging the skills of the Xcentric team, you can achieve manufacturing perfection and streamline production while saving money and time.
When Xcentric does the plastic injection molding of medical parts for you, we always create second-to-none pieces with the needed functionality. In addition, our technical engineering team is here to render assistance during all phases of your project and provide design recommendations if necessary.
Are you searching for high-quality, precise mold manufacturing solutions for your medical devices? At Remington Medical, we offer excellent contract manufacturing services that ensure consistent, high-volume production.
Polypropylene (PP) is a highly effective plastic polymer commonly used in medical injection molding. With its exceptional strength and resistance to cracking, radiation, impact, temperature, wear, and tear, it’s no surprise that it is a top choice in the healthcare industry. From life-saving syringes and connectors to essential knee and hip replacements, PP is the preferred material for producing critical components in healthcare.
With Xcentric, you can use plastic, tool steel, and other materials for your molds and start with prototypes to get the approval of the FDA. Then, once you are ready for high-volume production, we can upgrade your molds for continuous performance to create multiple pieces with as little mold degradation as possible.
With additive manufacturing, medical professionals can now rely on high-quality injection parts that meet the strictest industry standards. Whether it’s intricate surgical tools or complex implantable devices, injection molding for medical devices ensures that every component is flawlessly fabricated for optimal performance. This medical parts manufacturing process is common to develop a wide range of components, devices, and parts, such as:
Polystyrene (PS) is a high-quality engineering-grade plastic that’s not as flexible as others, but it has exceptional mechanical properties and is compatible with body tissues. Polystyrene offers excellent dimensional stability, making it ideal for creating critical medical components like petri dishes, culture trays, and diagnostic parts.
Engineering plastics are deemed to be the materials of choice for prototypes and full-scale production for medical device components. They require less effort when it comes to the finishing stage and is contamination-resistant to ensure the end product’s safe uses.At Xcentric, we are happy to use engineering plastics and other commercially available materials or those supplied by you for your medical device components. When used as part of additive manufacturing or medical plastic molding, these materials are go-to options for implant positioning systems, drug delivery equipment, and housings for:
Our injection mold manufacturing process is ideal for products and plastic parts that require large-scale production. With scalable injection molding machines, we can easily adjust to meet your needs with consistent, high-quality production every step of the way. Contact us today to learn more about injection molding for medical devices.
Click on the different category headings to find out more. You can also change some of your preferences. Note that blocking some types of cookies may impact your experience on our websites and the services we are able to offer.
Choose from over 40 stock materials for your medical components, or supply materials on your own to ensure the required mechanical properties!