Steps Of Die Casting Die(HPDC Mold) Design II Die casting mold design, We often said as design of die casting dies or die casting die design. Also, Which be called die casting mould design in some countries. The basic die casting die design steps are summarized as follows: 1. Understand and determine the task 2. Design preparation 3. Select the parting surface and die casting system 4. Choose the die casting equipment 5. Determine the appropriate mold structure and draw the mold assembly sketch * 6. Calculation and verification of relevant parameters * 7. Draw the die casting mold pattern * 8. Proofreading and review * 9. Organize and archive design materials Next, Introduces steps 4-5 of die casting mold design on this page. STEPS OF DIE CASTING DIE(HPDC MOLD) DESIGN II 4. Choose the die casting equipment 4 Dies design is carried out according to the type of die casting equipment, so it is necessary to be familiar with the performance, specifications, and characteristics of various die-casting equipment. For die casting machines, the following should be understood in terms of specifications: clamping force, pressure chamber capacity, injection pressure, mold opening stroke, mold opening force and ejection force, mold installation dimensions, ejection device and its size, die casting machine Gate displacement distance, gate sleeve positioning ring size, mold maximum, and minimum thickness, installation matching size, etc. According to the quality of the die casting and the total projected area of the die casting on the parting surface, the required clamping force is calculated, and the overall dimensions of the die are preliminarily estimated. Combined with the actual die casting machine situation of the die casting production unit, the die casting machine is initially selected. 5. Determine the appropriate mold structure and draw the mold assembly sketch * 5 The main content of this part includes (1) The form of the gating system and the overflow system, including the sprue, the runner, and the position, shape, and size of the inner gate, as well as the exhaust overflow method, etc. (2) The structure of the formed part (3) The demolding method of die castings, the method and sequence of mold opening, the selection and design of the ejection mechanism, etc. (4) The structure of the main parts and the ruler and the required installation cooperation relationship (5) Selection of mold base, combination design of supporting and connecting parts (6) Cooling and heating method and mold temperature adjustment system When determining the structure of the die-casting mold, the following conditions should be considered (1) Each structural element in the mold should have sufficient rigidity to withstand the clamping force and the back pressure during liquid metal filling without deformation. All parts in contact with molten metal should be heat-resistant die steel. (2) Try to prevent the molten metal from impacting or scouring the core from the front to avoid erosion at the inflow of the inner gate. When the above situation is unavoidable, the eroded part should be made into a block type so that it can be replaced frequently. It is also possible to use a larger internal gate section and maintain the thermal balance of the mold to improve the life of the mold. (3) Reasonably choose the combination of mold inserts to avoid sharp corners and sharp splits to meet the requirements of heat treatment. The push rod and core hole should keep a certain distance from the edge of the insert to avoid weakening the strength of the insert. The fragile parts of the mold should also consider the inlay structure for easy replacement. (4) After splicing at the forming part, it is easy to leave splicing marks on the die casting. The location of splicing marks should consider the aesthetics and performance of the die casting. (5) The size of the mold should correspond to the selected die-casting machine. Drawing a sketch of the mold structure can check the coordination relationship between the considered structures. For inexperienced designers, this sketch is used to solicit the opinions of mold manufacturing and mold operators so as to introduce their rich practical experience into the design. 6. Calculation and verification of relevant parameters * 6 (1) Calculate the working size of the formed part; (2) Calculate and verify the thickness of the side wall and bottom plate of the formed part cavity to determine the size of the template; (3) Calculate core-pulling force, core-pulling distance, mold-opening stroke required for core-pulling, and size of related core-pulling parts such as diagonal pins; (4) Check of push rod compression instability; (5) Calculate the temperature adjustment system parameters; (6) Checking the relevant parameters of the die casting machine Link to: STEPS OF DIE CASTING DIE(HPDC MOLD) DESIGN I Link to: STEPS OF DIE CASTING DIE(HPDC MOLD) DESIGN III contact

What is High Pressure Zinc Alloy Die Casting Molds The zinc die casting parts can reach a tolerance: 0.01mm~0.03mm as a requirement. It can be used in a wide range of industries. Like: Toys, lamps, decorations, Auto parts, Electromechanical parts, mechanical parts, electrical components, etc. Zinc alloy material with a low melting point, good fluidity, high strength, high hardness, high precision, and stability. Zinc die parts have good thin wall capability for mass production, and high corrosion resistance. Therefore, zinc alloy die casting is an ideal alternative to many industrial component materials. Commonly used zinc alloy grades: Zn 1#, Zn 2#, Zn 3#, Zn 5#, Zamak8#, etc. The Main Physical Characteristics Are As Below: Currently, We occupy 54,000 square feet with a workshop plant located at Huizhou City, And another plant 49,000 square foot workshop plant located at Dongguan City, China. Quantities of Major Machines： 15 sets of CNC Machining Centers 5 sets of EDM Machining 2 sets of Wire cutting 2 sets of CMM 2 sets of Projector 2 sets of Spot Machine ​ Zinc alloy dies casting mold life depends upon the part/tool design, as well as the Tool steels used. ​ Commonly Mold Steels Used: H-13, H-13, ESR, Assab 8407, Bohler W302, and Assab 8418. etc. Take care all projects according to mold projects management system. CAMEL has been provided zinc die casting molds from custom zinc die casting tooling to middle-sized zinc die casting parts production, meanwhile including surface treatments service based on customers’ requirements, such as Plating chrome, Plating Tarnish, UV Coating, Powder coating, Painting, Anodizing, Blacking, Impregnating, etc. We run all metal products under ISO 9001:2015 and IATF 16949:2016. ​ Die casting machines for mold trials ranging from 280 tons to 3000 tons ( 280T, 350T, 500T, 800T, 1250T,1650T, 3000T), Our capability from tooling design to build dies about 12-15 sets of big die casting dies per month. DFM ( 2 days) Moldflow Analysis (24 Hours) Mold Design (2-3 days) Weekly Tooling Schedule Mold Trial Mold Shipment Free Quote & Part Analysis → Die Casting Molds We Build: Trimming Die High-Pressure Zinc alloy die casting mold High-Pressure Aluminum alloy die casting mold High-Pressure Magnesium alloy die casting mold contact

Failure Mode And Analysis Of Die-casting Dies For Aluminum Alloy The vigorous development of the automobile industry and the need for lightweight, so that Aluminum alloy Die-casting is to the large-scale and complex direction of rapid development. Die-casting dies as the main equipment of Die-casting production is to achieve the basic guarantee of high quality and efficient production of Die-casting, its life directly affects the quality of Die-castings, production, as well as the production cost of enterprises and market competitiveness. At present, in most countries, the low service life of the Aluminum alloy Die-casting dies problem becomes the main factor that restricts the further development of die-casting industry, the failure mode of Aluminum alloy die-casting dies is more problematic. 1. Working environment of Aluminum alloy Die-casting dies Aluminum alloy Die-casting dies as a carrier of high temperature, high pressure, high speed Aluminum liquid, its working environment is extremely harsh. When working, the cavity surface is repeatedly flushed by the Aluminum liquid, the specific pressure is more than 40MPa, the inner sprue speed is 30~65m/s, the mold cavity surface temperature can reach 1112°F or more instantly, and after opening the mold, the mold cavity surface temperature drops sharply due to spraying and other reasons. This kind of hot and cold alternating effect in the die-casting cycle repeatedly, making the mold cavity surface temperature changes dramatically. 2. Failure mode and analysis of Die-casting dies According to the field statistics, the common failure forms of Die-casting dies are cracked, cracking, erosion, adhesion, and deformation, etc. Among them, cracked, cracking, erosion, and adhesion mainly occur in the mold cavity surface. (1) Cracked: In each Die-casting cycle, due to the existence of intense heat exchange, the mold temperature changes dramatically, the resulting thermal stress leads to thermal fatigue on the surface of the mold cavity, forming micro cracks. With the increase of Die-casting cycle, the micro-cracks further expand and form crack. This is the main mode of Die-casting dies failure field. (2) Cracking: In the Die-casting production, in addition to thermal stress, due to the high-pressure impact of Aluminum, in the mold internal also produced other stresses. When these stresses exceed the fatigue limit of the mold material will produce cracking, especially easy to produce stress concentration of the sharp corner parts, the possibility of cracking is greater. In addition, if the stress generated during the processing of the mold is not completely eliminated, the mold is more likely to crack. (3) Erosion: Aluminum high speed filling cavity friction heat, so that the surface temperature of the area on the surface of the mold cavity towards the inner sprue, coupled with the violent impact of Aluminum, so the surface protection layer of this part is easy to be destroyed. The Aluminum solution further reacts with the exposed metal substrate to produce harder compounds. In the process of removing these compounds, it is easy to take away the substrate material and expose the fresh surface, and so on, intensifying the damage of the cavity surface, forming a serious erosion. (4) Adhesion: Pressure injection, the instantaneous temperature of the cavity surface at 1112°F. above, at this time, the affinity between the mold material and Aluminum liquid, strong adhesion, easy to form cavity adhesion. (5) Deformation: In the Die-casting process, Die-casting dies to withstand the clamping force, injection backpressure, and other stresses, if the template stiffness is not enough, the mold in these stresses under the long-term role of bending deformation. (6) Movement Obstacle: In Die-casting production, the temperature difference between inside and outside the mold, resulting in different thermal deformation of each part of the mold. Different heat deformation amount leads to different changes in the size of each part of the mold, thus changing the fit relationship between the mold parts. This change of fit relationship may cause significant movement obstruction of the mold parts with relative movement. LINKS： 1. How to Extend The Service Life Of Die-casting Tools 2. How to Choose Steel For Die Casting Mold 3. Steps Of Design Of Die-casting Dies (HPDC Mold) ​4. Specification Of Die-casting Dies ​5. Die Casting Mold From CAMEL DIE LIMITED ​6. Introduction Of Aluminum Alloy Die Casting Mold contact

How To Choose Steel For Die Casting Molds What feature of die casting mold steel? Die casting mold steel has the characteristics of high production efficiency, short production process, high casting finish and strength, less machining allowance, and metal material saving. It can produce a good surface and internal quality stably and efficiently. The mold material is required to have high strength, hardness, and thermal stability, especially high thermal strength, thermal fatigue, toughness and wear resistance. Die casting mold generally use hot mold steel H13, SKD61, 8407, 8418. We recommend the steels from these two companies： https://www.swiss-steel.com/ https://www.lkm.com.cn/tool_steel_advantage.php The following requirements when selecting die casting mold steel: Working conditions of the die casting mold The working conditions of die-casting molds are very harsh compared with other molds. Because of different die-casting metals, they have to withstand a high pressure of 150-500MPa. It is often in contact with molten metal at 300℃～1000℃ when working, and the pouring temperature of different die-casting alloys is also different. And the heating and cooling are repeated continuously, and the temperature gradient along the cross-section is very large. When the mold cavity with molten metal injected at a high speed of 150m/s～70m/s, severe wear will occur. Under the action of liquid metal erosion, the metal is easy to adhere to the surface of the mold cavity, and even penetrate into the mold surface to corrode the mold. ​ Other requirements of die casting mold steel Pressure casting can cast parts with complex shapes, high precision, small surface roughness, and good mechanical properties. Therefore, the die-casting mold steel should have the following requirements as below: Greater high-temperature strength and toughness Excellent high temperature wear resistance, oxidation resistance, and tempering resistance stability Good thermal fatigue performance High resistance to melt damage Good hardenability, small heat treatment distortion Good machinability and grinding properties The internal structure of the material is uniform without defects ​ Principles for the selection of die casting mold materials It can meet the requirements of the working conditions of the die-cast material. The mold size is determined according to the size of the die-cast part. Large and medium-sized precision die-casting molds should be made of steel with good processing performance, reliable performance, and long mold life. Free Quote & Part Analysis → ​H13 die casting mold steel H13 is hot die steel, which is formed by adding alloying elements on the basis of carbon steel. H13 die steel is used to manufacture forging dies with high impact load, hot extrusion dies, precision forging dies; die-casting dies for aluminum, copper, and their alloys. ​ 8407 die casting mold steel 8407 is mainly used for various metal die-casting molds, high-quality plastic injection molds. Such as engine molds, automobile lamp molds, etc. In die-casting molds, 8407 steel can be used for mold inserts, cores, cavities, gates, plungers, sleeves, etc. ASSAB 8407 The advantages of 8407: excellent thermal shock resistance and crack resistance, high-temperature strength, regardless of size, toughness, and ductility, high isotropy, excellent workability, and polishability, excellent hardenability, good heat treatment size Stability, and improvement of mold life. SKD61 die casting mold steel SKD61 has good toughness and high-temperature fatigue resistance, can withstand temperature fusion, is suitable for long-term work at high temperatures, and has good cutting performance and polishing performance. It is suitable for making aluminum, zinc, copper alloy die-casting molds, etc.; it is an ideal material for making ejector pins and barrels. 8418 die casting mold steel 8418 has excellent resistance to thermal fatigue cracking, thermal shock cracking, thermal wear, and plastic deformation. These unique properties make it the best choice for die-casting die steel. Used for zinc, magnesium, aluminum, titanium alloys die casting mold, etc. ASSAB 8418 has the following characteristics: 1. Excellent toughness, ductility, and homogeneity 2. Excellent anti-tempering softening performance 3. Excellent high-temperature strength 4. Excellent hardenability 5. Excellent heat treatment dimensional stability and plating performance How to improve mold life of die casting mold steel: 1.After heat treatment, the die-casting mold steel can ensure its required strength, hardness, stability, thermal fatigue resistance, and material cutting performance. 2.Strengthening the surface of die-casting die steel is currently the most effective way to extend the mold life of die-casting die steel. There are three main types of surface strengthening: It is not changing the surface chemical composition, laser phase change hardening, etc. It is changing the surface chemical composition, nitriding, etc. It is forming a covering layer on the surface, processing by vapor deposition technology, etc. By adjusting the general heat treatment process, the strength and toughness of steel can be effectively improved, and the mold surface can be given high hardness, wear, and corrosion resistance, seizure resistance, low friction coefficient, and many other excellent properties, so that the service life of die casting mold steel can be increased several times or even dozens of times. contact

ZINC DIE CASTING MOLD MANUFACTURER PRODUCT PARAMETERS Product Material: Zamak 3 Product Size (LxWxH): 115x124x51mm Qty Of Cavity: 1 Qty Of Slider: 2 Mold Type: 2-Plate mold Machine Tons: 400Ton Mold Size (mm): 440x440x470 Lead Time: 28 days

Die Casting vs Permanent Mold Casting The main methods of producing aluminum parts are sand casting, permanent casting, and die casting. Among them, die casting and permanent mold are often confused. Die casting vs permanent mold casting Die casting and permanent mold casting use steel molds to form a cavity that contains molten aluminum during cooling. this process is different from the sand mold & sand technology process where a new cavity is formed in the sand mold every cycle. Mold abrasive coating protects the steel from molten metal. Compared with gravity casting permanent, when using die casting, metal is pressed into the mold cavity under pressure. This makes it very similar to plastic injection molding. Once the metal solidifies, the mold and removal the mold will open. The major difference between the two steel dies techniques is how the metal gets into the tooling. In the permanent mold, the metal flows into the cavity from the reservoir. A gate controls the flow speed to reduce turbulence. Usually, the mold is designed to fill the riser from the bottom of the side so that the riser is at the highest point. After filling, the metal is given time to freeze before the mold is opened and the part removed. Features such as internal galleries are created by placing inserts into the mold before it is closed. Free Quote & Part Analysis → Die casting advantages Excellent casting surface finish, more than 125 microinches. It may require little or no secondary processing and finishing. Very tight geometric tolerances can be maintained, including thin walls. Compared with permanent mold, parts to parts processing speed is faster, which helps reduce the unit cost of long-term operation. Equipment usually requires less floor space. Die casting molds are often less expensive than permanent casting molds, but the process can produce more precise parts with thinner walls and smoother surfaces. Common casting metals are aluminum, magnesium, and zinc alloys. Permanent mold casting advantages Permanent mold casting is usually lower than the required complexity of the mold, so the price is cheap. Surface finish is typically in the range of 125 to 300 microinches, which means that most secondary processing is required. The most common process uses gravity to fill the mold, however, gas pressure or a vacuum is also used. Picture from Wikipedia link contact

MANAGEMENT TEAM Chief Executive Officer ​ Simon Rain is one of CAMEL's founders, has 20 years of experience in the mold industry, specializing in mold designing, project management, and factory management. ​ Name: Simon Rain Email: simon@cameldie.com Phone: +86 18923766315 Managing Director ​ One of the founders of CAMEL DIE has 13 years of marketing development, customer service, and company management experience Welcome to contact with me about any of strategic cooperation. Or any complaints about the quality and service of our product. ​ Name: Leo S.Tian Email: leo@cameldie.com Phone: +86 18948310091 Chief Financial Officer ​ Participate in formulating the company's medium and long-term development strategy and annual work plan, 10 years of finance experience; It is my pleasure to join CAMEL in 2019. ​ Name: Copper Email: sales@cameldie.com Phone: +86-755-83440917 Project Manager ​ Ten years ago, I joined CAMEL as a mold designer, and now I am a project manager after managing many different famous projects from North America and West Europe. My next goal is to have a project management system be more intelligent and effective continuously, reduce the error rate and speed up manufacturing. ​ Name: Hedy Email: sales@cameldie.com Phone: +86-755-83440917 Engineer Manager In August of 2016, I joined CAMEL Die Limited as the design leader for die-casting molds, mainly responsible for the die casting mold quotations, project development, mold design, personnel management, after-sales service, corporate design standard drafting, document management, etc.​ Name: Mankiw. Xu Email: sales@cameldie.com ​ Phone: +86-755-83440917 ​ ​ ​ Overseas Manager ​ Originally from Canada, having travelled extensively and gaiend invaluable experience in business development and sales. In the die casting mold indsutry for 10 years, working with our HQ in China. Based out of Nashville, TN for convenient travel and communcation with our current and prospective customers. ​Name: Chris Furlong Email: sales@cameldie.com ​ Phone: +1 615 968 3002

DIE CASTING MOLD FOR AIRCRAFT PARTS DIE CASTING MOLD TRIAL REPORT Product Material: AZ91D Product Size (LxWxH): 91x91x7mm Qty Of Cavity: 4 Qty Of Slider : 0 Mold Type : 2-Plate mold Machine Tons : 600Ton Mold Size (mm) : 750 x 620 x 533 Lead Time : 28 days READ MORE→ PROJECT DETAILS CAMEL provide DFM and Moldflow within 3 working days. Project Management 1, RFQ & Quote CAMEL provide quote within 1-2 working days. And provide DFM and mold flow if needed. 2, DFM & Moldflow 3, Mold Design & Design Review Usually 3D mold drawing for 1 set mold submit within 2-3 working days. and 3-5 sets mold drawing provide within 1 week . CAMEL do care about lead time. Design review to ensure all requirements completed and correctly before send out mold drawing . 4, Tooling Schedule & Week report CAMEL provide the first schedule within 24 hours after get customer approve for order& cut steel, and update scheudle with processing pictures on each Monday. And send project tracker with all sets molds status(Still processing) on each Thursday. 5, Trial Report & FAI Report Mold trial report will be provided within 24 hours after mold trial, there has picture showing the mold running status and sample's status in trial report, And provide trial video and parameter together. FAI report of casting sumbit within 72 hours after finish mold trial. 6, Sample approval and Mold Shipment 1) Provide X-ray inspecting report to ensure casting quality. 2) Ship casting within 24 hours after finish trial, and provide waybill in timely. 3) After samples approval and shippment informed. According to Mold checking list to ensure all requiremets completly and correctly to ship to our clients. 7, After-Service CAMEL have 3 cooperated after-service location at Europe (Austria ,Slovenia), and 5 cooperated after-service location at Unit States (MI,IN,TX). CAMEL be responsible for the mold production smoothy during mold life. contact

The Chamber of Commerce and Municipal Government Office in Shenzhen Jointly Visited Member Units Authors, Wang Yanjun 23/03/2021 The Executive Chairman, Wang Yanjun and Secretary-General of Shenzhen Xingtai Chamber of Commerce, Wang Rui, Vice-Chairman, and Wang Xianliang, Deputy Director of the Investment Promotion Office of Xingtai Municipal People’s Government in Shenzhen, jointly visited Vice-Chairman Tian Shimin'S company-Shenzhen CAMEL DIE LTD on the afternoon of March 22. SHENZHEN CAMEL DIE LTD is headquartered near Tian'an Digital City in Longgang District, Shenzhen City. It was established in June 2009. The company initially focused on precision mold engineering services and overseas sales for automobiles and white goods and expanded to the current R&D and manufacturing of plastic molds. Four core businesses are Plastic mold development & manufacturing, Die casting mold development & manufacturing, Product structure optimization, and Small-batch mass production of plastic parts & die-casting parts. After 11 years of experience accumulation and improvement, it has now developed into three domestic branches, two South China factories, two overseas after-sales service points, and multiple overseas technical service cooperation points, integrating R&D, production, and holding industry quality systems of mold manufacturing and product production enterprise integrating certification and after-sales technical support. The main service industries include aviation, automobiles, white goods, agricultural irrigation, lighting, and security. The main service customers are the first-class parts suppliers of world-renowned brands, such as General Motors, Chrysler, General Electric, British Lotus, London Taxi, Bentley, Tier 1 supplier of Boeing aircraft seats, and Whirlpool. CAMELer takes "respect, efficiency, and self-examination" as its core value, and continues to standardize the triangular win-win relationship with customers, employees, and partners. In innovative design concepts, cutting-edge manufacturing technology research and development, scientific management system, and other aspects, make unremitting efforts to form a global industry standard and go all out for the Chinese manufacturing industry to go global. -End- [Reprinted from Toutiao Read the original text] ​​CAMEL IS A PROFESSIONAL DIE CASTING MOLDS MANUFACTURER BASED IN CHINA, OUR DESIGN TEAM WITHIN MORE THAN 12 YEARS OF DESIGNING AND MAKING STABLE ALUMINUM ALLOY HIGH-PRESSURE DIE CASTING TOOL AND DIE EXPERIENCE. PLEASE CONTACT US IF YOU HAVE ANY ALUMINUM DIE CASTING DIES PROBLEMS IN ALL INDUSTRIES!

Steps Of Die Casting Die(HPDC Mold) Design Die casting mold design, We often said as the design of die casting dies or die casting die design. Also, Which be called die casting mould design in some countries. The basic steps are summarized as follows: 1. Understand and determine the task 2. Design preparation 3. Select the parting surface and die casting system 4. Choose the die casting equipment 5. Determine the appropriate mold structure and draw the mold assembly sketch * 6. Calculation and verification of relevant parameters * 7. Draw the die casting mold pattern * 8. Proofreading and review * 9. Organize and archive design materials We will introduce each step in detail. It was divided into three web pages to share and now introduces steps 1-3 of die casting mold design on this page. STEPS OF DIE CASTING DIE(HPDC MOLD)DESIGN I 1. Understand and determine the task 1 The task book of die-casting parts is usually given by the part designer, providing a formal part drawing after review and signing, and explaining the grades and performance requirements of the die-casting alloy materials, the use requirements or technical requirements of the die-casting parts, the production quantity and the delivery of the die-casting parts Delivery period, etc. The mold design task book is generally proposed by the die-casting parts technician according to the task book of the die-casting part, and the mold designer uses the die-casting part-task book and the mold design task book as the basis to design the mold. 2. Design preparation 2 1) Collect relevant information Collect and sort relevant parts design, die-casting process, die-casting equipment, mechanical processing, and special processing materials for use in mold design. Understand the melting of die-casting raw materials and die-casting process parameters. Digest the process data, analyze whether the die casting method, equipment model, material specification, mold structure type, and other requirements proposed in the process task book are appropriate, whether the die casting equipment of the die casting production unit, the processing capacity and equipment conditions of the die processing unit can be implemented. Die-casting materials should meet the strength requirements of die-casting parts and have good fluidity, uniformity, isotropy, and shrinkage. According to the purpose of die-casting parts, die-casting materials should meet the requirements of electroplating metal conditions, decorative properties, necessary mechanical properties, or weldability. 2) Structural analysis of die castings Digest the drawings of die-casting parts, understand the purpose of the parts, and analyze the technical requirements of die-casting parts such as manufacturability and dimensional accuracy. For example, what are the requirements for die-casting parts in terms of appearance and performance, whether the geometric structure of die-casting parts, slope inserts, etc. are reasonable, the allowable degree of die-casting defects such as flow marks, shrinkage holes, and porosity, whether there is a coating, Electroplating, machining, etc? Select the dimension with the highest dimensional accuracy of die-casting parts for analysis, and see if the estimated die-casting tolerance is lower than that of die-casting parts, and whether die-casting parts can be die-casted. Specifically including (1) Under the condition of satisfying the structural strength of die castings, a thin-walled structure should be adopted. This not only reduces the weight of die casting but also reduces the thermal load of the mold. The wall thickness of die castings should be uniform, avoid hot spots, reduce local heat concentration, and reduce thermal fatigue of mold materials. (2) All corners of die-casting parts should have appropriate casting fillets to avoid the formation of edges and corners in the corresponding parts of the mold, resulting in cracks and corners. (3) Narrow and deep cavities should be avoided as far as possible on die castings, so as not to cause sharp splits in the corresponding parts of the mold, which will deteriorate the heat sink and cause fractures. When the die castings have smaller size round holes, they can only be on the surface of the casting. Press the punching hole position of the sample, and then post-process the die-casting part. 3. Select the parting surface and die casting system 3 According to the basic principles of selecting the parting surface, the position of the parting surface is reasonably selected, and the number and distribution of the cavity are determined according to the structural characteristics of the die-casting part, and the form of the gating system is selected reasonably so that the die-casting part has the best die-casting forming conditions and the longest The mold life and the best mold machining performance. Link to: STEPS OF DIE CASTING DIE(HPDC MOLD)DESIGN II Link to: STEPS OF DIE CASTING DIE(HPDC MOLD)DESIGN III contact

What is die casting What is die casting mold Steps Of Die Casting Die(HPDC Mold) Design Glossary of die casting terms List of die casting manufacturers How to choose steel for die casting mold How to Extend the Life of Die-casting Tools Failure Mode and Analysis Of Die-casting Dies How to choose a die casting machine How does cold-chamber machine work How does hot-chamber machine work HPDC vs LPDC die casting Die casting vs permanent mold casting SHENZHEN CAMEL DIE LIMITED provides high-quality die casting mold design, stable mold development, and mold production export from China to North America & Europe. One of the worldwide leading mold manufacturers specializing in high pressure die casting (HPDC) mold build in-house. Currently, our factory has 15 sets of CNC machines and the primary material covers aluminum alloy, zinc alloy, and magnesium alloy. In addition, one-stop manufacturing service for all industrial applications, such as automotive, telecom equipment, electrical appliances, mechanical, motorcycle accessories, lighting, home appliances, medical instruments, aerospace, and machinery industries, etc. We are also ISO 9001:2015 and IATF 16949:2016 certificate company. About our team Why choose us Communication: 24 Hours Online Service ( China/USA teams) Customer Service Team Works From Shenzhen, China, and Nashville, TN Professional Service: Working In The Mold Industry For More Than 12 Years Management: With Rich Experience From Designing, Processing, Mold trials, and Shipment Mature Project Management System Reduce Cost Short Lead time: On-Time Delivery Rate At 97.14% Efficient Trim Die Reduce Waste Materials Longer Lifespan: The Mold Life Of Aluminum Die Casting Molds Can Reach 200,000 Shots The Success Rate Of The First Test Can Be Up To 96% Effective: Quotes And DFM Will Be Provided Within 24 Hours The Mold 3D Drawings Are Provided Within 3 Days After Confirmation Of DFM Honor: Had Passed The ISO 9001:2015 and IATF 16949:2016 Free Quote & Part Analysis → CUSTOMIZED MOLD DISPLAY OF CAMEL 1. Aluminum Die Casting Molds The temperature of the aluminum alloy melt is usually around 1202~1292°F. The mold life should be focused on whether mold sticking and early dry cracking of the mold cavity occur. At present, General used steels included: 4Cr5MoSiV1 (H13), 4Cr5MoSiV (H11), 3Cr2W8V, and new steel grades Y10 and HM3. 2. Magnesium Die Casting Molds The melting point of magnesium alloy is 1202°F. Die casting has a good molding feature. The tensile strength of magnesium alloy castings is equivalent to that of aluminum alloy castings, generally up to 250Mpa, up to more than 600Mpa. Compared with aluminum alloy, magnesium alloy has lower hot melt, and its iron content is also very low. Therefore, the mold has a longer life. 3. Zinc Die Casting Molds The melting point of zinc alloy is 752~806°F, and the surface temperature of the zinc alloy die casting mold cavity will not exceed 752°F. The materials generally used to manufacture structural steels 40Cr, 30CrMnSi, 40CrMo, etc. Alloy mold steels 5CrNiMo, 5CrMnMo, 4Cr5MoSiV, 4Cr5MoSiV1, 3Cr2W8V, CrWMn, etc. 4. Trim Die Long tool life to reduce the setup time and waste materials. Mold trials ranging from 280 tons to 3000 tons( 280T, 350T, 500T, 800T, 1250T,1650T, 3000T), and 12-15 sets of big die casting dies per month. High Pressure Aluminum Alloy Die Casting Mold Case: Product Parameters Product Material: A380 Product Size (LxWxH): 443.97X469.89X243.6 Product Industry: Casino industry Qty Of Cavity: 1*1 Qty Of Slider: 2 Mold Type: 2-Plate mold Machine Tons: 1650T Mold Size (mm): 1180X1050X871 Lead Time: 40 days CAMEL 's first factory, located in Dongguan city with 5,400 square meters supplies a capacity of around 300 sets per year. And the second factory, estimated in 2019 located in Huizhou city with 6,100 square meters to build about 240 sets of large molds per year. Essential equipment for die casting mold manufacture including CNC, EDM, WEDM, Fixtures, CMM, OMM, Die Spotting Machine, Oil Temperature Machine, and Mold Trial Machine. CAMEL has 4 locations in total: 2 factories for die casting dies mold manufacturing respectively, 1 engineering office, and 1 sales office, with around 140 people in total. ONE OF THE WORKSHOPS IN CAMEL HUIZHOU FACTORY We offer you fast, affordable, reliable service while also providing your company with first-rate quality products. We understand that our customers need both quality and service to manufacture their top-quality products. With this understood, we will exceed our customers' expectations at a fantastic price. CAMEL IS A PROFESSIONAL DIE CASTING MOLD MANUFACTURER AND SUPPLIER IN CHINA. OUR ENGINEER TEAM WITHIN MORE THAN 12 YEARS OF TOOL AND DIES DESIGNING EXPERIENCE! PLEASE CONTACT US IF YOU HAVE ANY ALUMINUM DIE CASTING MOLD PROBLEMS IN ANY INDUSTRY! contact

TRIM DIE