multi cavity mold base is identified as the iconic product of Ruifengda Brand. It excels other product in the attention to the details. This can be revealed from the refined workmanship as well as exquisite design. The materials are well selected before the mass production. The product is manufactured in the internationalized assembly lines, which greatly improves production efficiency and reduces cost. It is thus supplied at a competitive price.
Ruifengda products have been spread to the worldwide. To keep up with the trending dynamics, we devote ourselves into updating the products series. They excel other similar products in the performance and appearance, winning the favor of customers. Thanks to that, we have gained higher customer satisfaction and received continuous orders even during the dull season.
We are able to provide high quality services at Ruifengda Brand, through continuous improvement and on-going awareness training. For example, we have trained several teams of senior engineers and technicians. They are equipped with industry know-how to provide supportive services, including maintenance and other after-sales service. We ensure that our professional services meet the demands of our customers.
In 2023, after our company purchased High-Speed-CNC of YASDA, a mold factory in the UAE placed an order with us. The order was 13 sets of multi-cavity ultra precision mould bases. The customer has multiple factories in India and Dubai, and has high precision requirements for the mold. We sent reply drawings to customers for each set of mould bases to confirm and negotiate processing requirements such as technology, tolerances, and accessories. Although it was our first collaboration, the process of adaptation was relatively smooth and we were able to quickly cooperate and solve any problems encountered. After nearly two months, all products have been shipped safely.
This visit is the first time that the client has visited our company after cooperating with us. The main purpose is to inspect our equipment and evaluate the possibility of increasing cooperation in the future. The customer mainly visited the steel milling and CNC workshop, and highly appreciated our YASDA brand high-speed CNC machine. Our company also stated that this machine produces most of the customer's products. In addition, the customer also stated that the more than 10 sets of mold blanks received earlier have been put into use and the quality is very good. We also discussed the issue of steel being prone to rusting and mold base components. Our company will put more effort into vacuum packaging and anti rust oil application, and the accessories will also be inspected before being installed on the mold base. The customer is very satisfied with this trip and expressed that they will deepen cooperation with our company.
When designing the mold base, it is necessary to pay attention to multiple aspects to ensure that the structural strength, accuracy, maintainability, and safety of the mold base can meet the requirements. Here are some key design considerations:
1、 Structural Strength and Material Selection
Structural strength: The mold base should be able to withstand loads under various working conditions, including self weight, operational loads, etc. Its structural strength must meet relevant standards and specifications to ensure the stability and reliability of the mold during use.
Material selection: The material of the mold base should have sufficient strength and rigidity to withstand corrosion, wear, and impact in the working environment. The commonly used materials include steel, iron, aluminum alloy, etc., and the specific selection needs to be determined according to the usage conditions and requirements of the mold. Common mold steels include S50C, P20, S136H, 718H, XPM, 4Cr13H, etc
2、 Dimensions and Geometric Accuracy
Dimensional accuracy: The dimensions and geometric accuracy of the mold base should meet the design requirements to ensure the assembly accuracy and working performance of the mold components. This includes the overall dimensions of the mold base, the relative positional accuracy of each component, and the surface roughness of the machined surface.
Standardization: Mold base design should use standardized and serialized components as much as possible to facilitate manufacturing, assembly, and maintenance.
3、 Mold installation and commissioning
Installation convenience: The mold base should be designed with a convenient and fast installation and debugging method, so that the mold can be quickly adjusted and adapted to work requirements. This includes reasonable installation interfaces, positioning devices, and debugging mechanisms.
Debugging space: When designing the mold base, the space and tools required for mold debugging should be considered to ensure smooth debugging work.
4、 Mold stability and protection
Stability: The mold base should have a stable structure to ensure the stability and reliability of the mold during operation. This includes reasonable support structures, fastening devices, and limit mechanisms.
Protective measures: The mold base should have necessary protective measures, such as earthquake resistance, corrosion resistance, wear resistance, etc., to extend the service life of the mold. At the same time, the convenience of maintenance and upkeep of the mold should also be considered.
5、 Attachments and Detail Design
Attachment design: The mold base design should consider various accessories required for the mold, such as guide devices, ejector devices, cooling systems, etc., and ensure their good operating condition and reliability.
Detail handling: In the design of the mold base, attention should also be paid to some details, such as the selection and arrangement of cooling water nozzles, the fixing and identification of nameplates, and the convenience of mold lifting and transportation.
6、 Security
Safety regulations: The design of the mold base should comply with relevant safety regulations and take appropriate measures to ensure the personal safety of the operator. This includes setting up safety protection devices, avoiding sharp edges and protrusions, etc.
Emergency measures: In the design of the mold base, possible emergency situations should also be considered, and corresponding emergency measures and rescue plans should be formulated.
In summary, during the design phase of the mold base, attention should be paid to multiple aspects such as structural strength, material selection, size and geometric accuracy, mold installation and debugging, mold stability and protection, accessory and detail design, and safety. By considering these factors comprehensively, a mold base that meets the requirements can be designed, providing strong support for the production and use of molds.
IIn August 2024, the relevant person in charge of TK Mold visited our company for exchange and officially began long-term cooperation with us. Our mold base process fully meets the mold types and requirements of TK Mold. The quality requirements for the mold base purchased by TK Mold are relatively high, making it an excellent partner for us.
TTK Mold is a globally leading one-stop injection molding solution provider, mainly committed to leading the injection molding production of smartphones, personal care, and smart home products, packaging medical, personal care, and precision electronics high-precision, multi cavity, high-performance molds, as well as the research and development, design, and manufacturing of automotive molds and other large and complex molds. TK currently has five major production bases located in Shenzhen, Suzhou, Huizhou in China and Vietnam and Germany overseas.
The hardness and wear resistance of mold steel are closely related. Generally speaking, the higher the hardness, the better the wear resistance. High hardness makes the surface of mold steel more resistant to friction and wear. But hardness is not the only factor, the material's organizational structure and other factors can also affect wear resistance. However, high hardness can usually greatly improve the wear resistance of mold steel.
What are the requirements for the performance of steel in automotive molds? Firstly, it has high hardness and can withstand high-intensity stamping without deformation. Secondly, good wear resistance ensures the service life of the mold. Thirdly, sufficient toughness is required to prevent the mold from cracking during use. In addition, good processing performance facilitates the processing into complex mold shapes. At the same time, it also needs to have good thermal stability to adapt to high-temperature processing environments.