Granulate of high quality for perfect molded parts.
Our understanding of a good raw material is based on two fundamental principles.
Good properties and good processability.
Sampo MAX
It is a thermoplastic polyurethane (TPU) based on polycarbonate and primarily designed for processing via injection molding.
Sampo LTE
It is a thermoplastic polyurethane (TPU) based on polyether and primarily designed for processing via injection molding.
Sampo UNI
It is a thermoplastic polyurethane (TPU) based on polycaprolactone and primarily developed for processing via injection molding.
Granulate of high quality forperfect molded parts.
Our understanding of a good raw material is based on two fundamental principles. Good properties and good processability.
01
SAMPO MAX
It is a thermoplastic polyurethane (TPU) based on polycarbonate and primarily designed for processing via injection molding.
02
SAMPO LTE
It is a thermoplastic polyurethane (TPU) based on polyether and primarily designed for processing via injection molding.
03
SAMPO UNI
It is a thermoplastic polyurethane (TPU) based on polycaprolactone and primarily developed for processing via injection molding.
Molded parts from the idea toseries production.
In the design and production of molded parts, it is particularly important to consider the specifics of toolmaking and material properties right from the beginning of component design. This ensures a functional and economically producible end product.
Idea generation
You have the idea, and we assist you with the implementation. Our goal is to understand and bring your wishes to life. Through close collaboration, we help you gradually concretize your visions step by step.
Idea generation
You have the idea, and we assist you with the implementation. Our goal is to understand and bring your wishes to life. Through close collaboration, we help you gradually concretize your visions step by step.
Material selection
Materials have a wide range of properties and applications. Only through the right material selection can your molded parts become durable and functional. Once we understand your requirements, we can assist you in the selection process. In most cases, we can rely on past experiences and make the choice straightforward.
The application temperature, the surrounding media, and the forces at play are particularly important and must be considered in every case.
Material selection
Materials have a wide range of properties and applications. Only through the right material selection can your molded parts become durable and functional. Once we understand your requirements, we can assist you in the selection process. In most cases, we can rely on past experiences and make the choice straightforward.
The application temperature, the surrounding media, and the forces at play are particularly important and must be considered in every case.
Component design
First and foremost, molded parts, like all components, must fulfill their intended purpose. Our task is to ensure both functionality and manufacturability. Often, small details can be crucial for feasibility. Injection molds are precision tools that need to be carefully planned and manufactured. The earlier we are involved in the process, the sooner we can coordinate possible design features.
Throughout the project, it is essential to maintain an overview of all requirements and influencing factors. Corrections in molded parts are often associated with costs or even high costs. Our technicians are looking forward to your inquiries and potential joint projects.
Component design
First and foremost, molded parts, like all components, must fulfill their intended purpose. Our task is to ensure both functionality and manufacturability. Often, small details can be crucial for feasibility. Injection molds are precision tools that need to be carefully planned and manufactured. The earlier we are involved in the process, the sooner we can coordinate possible design features.
Throughout the project, it is essential to maintain an overview of all requirements and influencing factors. Corrections in molded parts are often associated with costs or even high costs. Our technicians are looking forward to your inquiries and potential joint projects.
Prototypes
To ensure the function and quality, we can create simple tools for prototypes. This effort can significantly influence and accelerate the development process. Prototypes can be produced using 3D printing or turning and milling. However, our experience shows that the properties of the components are crucially influenced by the technology used. Meaningful prototypes can only be produced through the injection molding process.
Prototypes
To ensure the function and quality, we can create simple tools for prototypes. This effort can significantly influence and accelerate the development process. Prototypes can be produced using 3D printing or turning and milling. However, our experience shows that the properties of the components are crucially influenced by the technology used. Meaningful prototypes can only be produced through the injection molding process.
Tool design
The first step in tool design is the component layout. If we are involved in this phase, much progress has already been made. We need your support to place injection points and ejector marks in the right locations. Tools are production equipment that directly affects the quality of the components. Depending on the production goals, the costs for tools can vary significantly.
Indeed, tools for precise components with functional surfaces and high dimensional accuracy need to be approached differently than tools for small quantities that may require post-processing. The factors of quantity and quality are usually determining factors for tool design and, consequently, the costs involved.
Tool design
The first step in tool design is the component layout. If we are involved in this phase, much progress has already been made. We need your support to place injection points and ejector marks in the right locations. Tools are production equipment that directly affects the quality of the components. Depending on the production goals, the costs for tools can vary significantly.
Indeed, tools for precise components with functional surfaces and high dimensional accuracy need to be approached differently than tools for small quantities that may require post-processing. The factors of quantity and quality are usually determining factors for tool design and, consequently, the costs involved.
Sampling
Before starting mass production, each tool undergoes sampling. Depending on the size of the part, cycle time, and number of cavities, the parts are molded and sent to you for inspection.
Sampling
Before starting mass production, each tool undergoes sampling. Depending on the size of the part, cycle time, and number of cavities, the parts are molded and sent to you for inspection.
Mass production
After receiving the final approval from the customer and ensuring that all quality criteria are captured in an inspection plan, we begin with mass production. Our quality assurance adheres to the agreed inspection plans, ensuring a flawless product. Our quality protocols enable traceability of the raw materials and production data used at any time.
Upon completion of a production batch, the tools are cleaned, maintained, and safely stored, ensuring a secure and smooth production process in the long term.
Mass production
After receiving the final approval from the customer and ensuring that all quality criteria are captured in an inspection plan, we begin with mass production. Our quality assurance adheres to the agreed inspection plans, ensuring a flawless product. Our quality protocols enable traceability of the raw materials and production data used at any time.
Upon completion of a production batch, the tools are cleaned, maintained, and safely stored, ensuring a secure and smooth production process in the long term.
Contact
Feel free to contact us if you have any questions about our products and services. We look forward to a potential future collaboration.