The Primary Choice of “Green Auto” Manufacturing-Metal Injection Molding

Metal injection molding products(mim parts) used in automobiles are very high-tech products that can reduce the weight of automobiles and reduce the manufacturing costs. They also have the function of optimizing the production technology of automobile industry products and enhancing the competitiveness of the automobile industry. Currently, the metal injection molding parts are used in automobiles has more than 400 kinds.
As a typical net-final manufacturing technology, metal injection molding has advantages in many aspects such as energy saving, material saving, environmental protection, economy and high efficiency, and has been gradually recognized by various industries and widely used; especially, the application of automotive metal injection molding products With the rapid development of the metal injection molding industry has promoted the rapid development of the lane.

Metal injection molding parts can reduce costs and vehicle weight

metal injection molding parts used in automobile manufacturing are mainly sintered metal oil-bearing and metal injection molding structural parts, the former is mainly produced by 90Cu-10Sn bronze, the latter is basically made of iron powder as the basic raw material. Here are some examples of metal injection molding technology applications:
A metal injection molding 64-tooth power take-off drive gear saves about 40% less costly parts machined from steel and does not require subsequent machining of gears; a metal injection molding automotive manual transmission synchronizer ring, as compared to conventional production Of the synchronizer ring, can reduce the cost of 38%; a metal injection molding compound planetary gear carrier, the ultimate strength of castings than the cast iron 40% higher, while reducing the cost of more than 35% ...

Many award-winning mim parts show that metal injection molding parts cannot only replace die-casting parts, forgings, machined parts, it can save labor, save material, save energy, reduce production costs, but also reduce the weight of parts, which is conducive to lightweight vehicles. More importantly, the development of metal injection molding combination parts, marking that some parts can only be made using metal injection molding technology, has important technical and economic significance.

Metal Injection Molding is a “green manufacturing” technology

At present, metal injection molding has been recognized by the industry as a green, sustainable manufacturing technology.
In terms of continuous functionality, the ultimate metallization power and material utilization of metallurgical powder metallurgy minimize total energy consumption. Compared with the traditional process (hot working + cold working), casting or forging + cutting, metal injection molding process to manufacture the same part requires only a few steps, which can be completed more processes, more complex processes. The ultimate strength of metal injection molding is its main strength in terms of material sustainability.
For example, forming a toothed part can result in up to 40% of the material turned into chips in conventional cutting processes, whereas 85% of the total powder metallurgy is produced from recycled material. In the production of metal injection molding parts, waste loss of each process is generally 3% or less, the material utilization rate of up to 95%.

In terms of energy sustainability, the conventional traditional manufacturing process requires several heating and reheating processes to finalize the shape. When atomizing the steel powder or iron powder, only the scrap material needs to be melted once, and all other heat Processing operations are carried out below the melting temperature of the temperature, so that not only energy saving but also can be made into the final shape and the formation of the required material properties, mechanical properties. A comparison of material utilization rates for metal forming found that the energy required to make metal injection molding parts was 44% of forged-machined parts.
In terms of environmental sustainability, due to the ultimate shaping ability of metal injection molding, finished parts are usually produced after sintering, ready for packaging and delivery. In most cases, the cutting oil used to process metal injection molding products is negligible, and the amount of toxic pollutants released by sources such as cooling water is small. Compared with other manufacturing processes, the metal injection molding parts industry is almost harmless to the environment.
Metal injection molding parts is already an indispensable basic type of automobile industry, many world-renowned metal injection molding enterprises have also established wholly-owned enterprises in China, personally believe that in the near future, China will gradually become one of the largest distribution centers of auto mim parts.

Structure Of Metal Powder Injection Mold

Mold is the foundation of the industry. Mold technology, to a large extent, determines the cost of the product, good quality, and even functional features. Metal powder injection molding mold is the basic component of the MIM process.The main structure of metal injection molding mold (commonly known as MIM mold) and the structure of the traditional plastic mold are roughly the same, the casting system, forming parts and structural parts of the three major components. Among them, the pouring system and the forming part are the parts that are in direct contact with the filling mold and are the parts with the highest processing finish and precision in the mold.

The Casting System
Refers to the molten material from the nozzle into the cavity before the runner part, including the main runner, cold material points, runners and gates and so on. The main channel refers to the nozzle to the diversion flow or cavity of a passageway, generally conical, the top is concave, in order to connect with the nozzle; cold material hole is located at the end of the main channel for a hole to cover the nozzle The two ends of the cold material between the injection to prevent the blockage of the runner and gate; shunt is the main runner and the gate between the gate, the general multi-cavity mold; gate is the shunt and type Cavity connection point, the molten material through the gate into the cavity forming.

The Forming Parts
Refers to the shape of the various components, including dynamic mode, fixed mold and cavity, core, forming rod and exhaust and so on. The movable mold is installed on the moving template of the injection machine, and the fixed mold is installed on the fixed mold of the injection machine. When working, the movable mold and the fixed mold are closed, and the core and the parting cavity form the cavity of the mold. Exhaust port is a slot-shaped air outlet provided in the mold for discharging the gas introduced by the melt.

The Structural Components
Including the guide, stripping, core-pulling, sub-type, such as before and after deduction template, bearing plate, guide column, stripping plate, stripping rod and so on. Guide components are to ensure that the movable mold and fixed mold can be accurately aligned in the mold clamping, the guide member must be set in the mold for positioning; demolding parts for the introduction of shaped parts and reset; some of the more complex shapes of the product Need to design the core, the core can be removed after the smooth release.

With more and more widely used products, the requirements are getting higher and higher, MIM mold manufacturing and design processes must also continue to improve in order to meet the needs of product development.

What Materials Would Be The Future Trend Of Metal Injection Molding?

With the development of MIM technology, we’ve used different kinds of material on this technology such as Iron Based, Low Alloy Steel, and Stainless Steel became the most popular material for applying. In the nearly future, we’re gonna believe more and more materials would be used in this advanced metal parts manufacturing process. So we list some materials that seem most likely to be used in Metal Injection Molding(MIM).

1. Nickel-free stainless steel
In the currently widely used medical austenitic stainless steel 316L and 17-4PH, nickel is an important alloying element. The main role of nickel is to form a stable austenitic stainless steel structure, thereby improving the corrosion resistance of stainless steel, plasticity, weldability and toughness properties, under room temperature stable austenitic stainless steel can also be made with non-magnetic .

However, nickel is a potential allergic factor, and a large number of clinical manifestations in the West confirm that nickel and its compounds can be harmful to humans. The most common damage is contact dermatitis, eczema occurs in patients with strong allergies.

At present, the EU has issued a ban on nickel, which be fully implemented by the end of 2016. The alternative is to use high-nitrogen, nickel-free chromium-manganese-molybdenum steel, which is exactly the strength of MIM technology.


2. Copper and brass
Metallic applications are magnetically non-conductive and are good materials for 3C products. Due to the MIM technology is economy and affordability, copper alloys should be a good option, but in the past few people concered sintering of copper alloys, mainly because the copper alloy plumbing equipment can be achieved through die-casting, the sintering of pure copper can not be done with normaly sinter furnace, the pressure must be greater than one atmosphere above the high-pressure sintering furnace, not the general factory can be set, mainly copper (and its alloys), low vapor pressure, vaporization has not yet reached the sintering temperature is quite serious, in addition to easy get contaminated of the furnace wall, the product is not easy to burn dense.

PIM International magazine 2015 first issue reported that the world's largest MIM / PM powder consumption in mainland China and Taiwan, but apparently only emphasis on heat pipes and heat sinks, and a small part of the bronze self-lubricating bearings and filters. For copper and Copper alloy MIM products, still to be developed. Normally, this material is expected to have the opportunity to quickly gain in value through the adoption of Apple computers.


3. Titanium and titanium alloys
Titanium and titanium alloys have always been the star material, but the price is too high, the source of powder is limited, so industrial applications are confined to the aviation buckle, special parts, and medical devices and implants, a small part of the wearable products , But due to the appearance of titanium is easy to lead to decoration is not good enough looking, a lot of stainless steel polishing to PVD is black, that only a thin layer of titanium surface, not enough to be called titanium. We also look forward to market development and nickel-free stainless steel era, high strength and relatively low proportion of titanium has its excellent mechanical and human affinity, to look forward to the extensive use of MIM titanium parts.


4. Functional metals and ceramics
Since 2017 the most discussed, most mysterious and the popular, I believe that is a functional material, due to many special applications, related materials such as various non-ferrous metal alloys, functional ceramics and so on. For example, soft magnetic materials such as cobalt-chromium-molybdenum alloy (CoCrMo) or cobalt-iron (Hiper Co), ceramics are even more varied.

Metal Injection Molding To Promote The Industrialization Of Powder Metallurgy Made A Breakthrough

In the process of understanding the powder metallurgy technology, we came into contact with metal injection molding process, did not expect it completely different from the ordinary forming technology, in the mass manufacture of complex geometry, high performance, high precision parts must have no difficulty, So as to promote the industrialization of powder metallurgy business to make a breakthrough.

Powder metallurgy companies in the metal powder injection molding time, in addition to the need to prepare the appropriate processing of the corresponding powder, but also need to add more powder to the binder. Therefore, either powder or binder should meet the requirements, otherwise it will affect the forming of powder metallurgy products.

The powder should be used ≤ 10um ultrafine spherical powder, and from the mixture to degreasing, sintering, the process is more complex, demanding processes, in particular, require longer degreasing and sintering time, which is also caused by the manufacturing cost of powder metallurgy High main reason. The adhesive wolf must be adequate, otherwise, it is difficult to achieve the corresponding performance.

This powder metallurgy company developed a simplified method is flow pressure forming technology, which is the temperature and pressure of metal powder, based on the combination of the advantages of metal powder injection molding process; and then by adding the right amount of coarse powder and fine Powder, and increase the amount of thermoplastic lubricant, thereby greatly improving the mixed powder flowability, filling and formability.

Since the mixed powder becomes a viscous fluid with good fluidity during pressing, it not only has the advantages of a liquid but also has a high viscosity and reduces the friction force, so that the pressing pressure is evenly distributed in the powder, Very good delivery. Because of this, the powder can flow to every corner without cracks during the pressing process, so that the density is also greatly improved.

At present, the powder metallurgy enterprise has already popularized this technology and used for precision forming of the workpieces with very complicated shapes on the conventional tablet press. This not only overcomes the shortcomings of the traditional cold pressing in forming complicated geometric shapes, but also avoids the high injection molding technology cost.

Advantages of metal parts manufacturer in China

1. Lower costs

Yep. We all know this one. And, yep in some conditions you need to consider the shipping and duties, the costs of manufacturing in China are possibly not that cheap. But in most cases, it’s cheaper to manufacture in China (and for a variety of reasons). Not much more needs to be said.

Before you dismiss the importance of manufacturing your product for less, I would recommend speaking to anyone who has ever worked a day in retail. He or she will undoubtedly tell you that lower cost almost ALWAYS better for sales. (And please don’t give me the “What about Burberry? What about Louis Vittuon?” because those companies have spent hundreds of millions of dollars in marketing to help boost the brand as a luxury product. And you won’t.)

Of course the quanlity is more important than cost, when we don’t have exhaustive information before we cooperated with Chinese factories, we better do factory audit, if we really don’t have the stuff to do that, some professional in the market could give help.

As an advanced metal injection molding factory in China, ZCMIM always welcome clients to come to visit factory, it’s always a good start for longer collaboration in future.

2. Better Service

It’s the truce that Chinese manufacturers are far more likely to give you better service from the outset as a small startup than domestic manufacturers.

According to a local businessman, “In the two retail businesses I’ve started, I reached out to domestic manufacturers first. In both situations, I either never received a phone call back from the person I spoke with or I was simply told that I was too small of a business for them to work with. This was my experience with each of the five to seven American factories that I spoke with. Who knows? Maybe yours will be different.

On the other hand, I never had difficulty finding a Chinese factory that was willing to work with me as a smaller company (“smaller company” = I’m not Walmart). The only time a factory refused my business was because I couldn’t meet their high minimum requirements (more on this later in the ‘Cons’ section.) But if I could meet their requirements, then they wanted to do business.

Trust me, you can’t take for granted that just because you’re willing to pay for goods, someone is willing to make them for you.”

3. Higher Output/Quicker Time

When a Chinese factory tells you they can produce your order in four weeks, they produce your order if four weeks. Based on many local business workers, this isn’t always sure in the U.S. On several occasions, I’ve heard the common complaint that domestic manufacturing capacity was limited in capacity or time or, at the very least, not nearly as robust as Chinese factories.

In fact, Chinese factory quick and aggressive turnaround times are impressive. I know some of you may claim unfair labor treatment as the reason for this, but if you have ever actually done business in China before, you should know that many (but not all) of the factories indeed operate properly and pay their laborers a fair Chinese wage.

4. Duplication Capabilities

I’m not here advocating that you copy anyone. In fact, depending on what you’re doing, you’re more than likely going to find yourself in litigation if you do.

But for whatever it is that you’re manufacturing, you don’t always need to reinvent the wheel, at least for some of it. For example, if you’re manufacturing shirts and you like the fit of Shirt Brand ABC, then buying Shirt Brand ABC and asking your Chinese factory to duplicate its dimensions and fit is an easy way to begin your product-building process.
Metal injection molding has great advantages when producing massive quantity of high precision metal parts, no one would be better than ZCMIM on this.

http://www.zcmim.com/article/advantages-of-china-mim-factory.html

Top 6 Metal Injection Molding Defects and Solutions about Debinding

In the injection molding debinding process, there is great chance to meet some common issues, below we list top 6 issues we might meet, and solutions to help you better on metal parts manufacturing.

Defect 1: Fluff

Causes and solutions:

A. POM split too fast, usually only need to reduce the temperature, reduce the amount of acid and increase the debinding time;

B. Feeding paraffin too many ingredients, with this problem need to replace the raw materials;

C. Mold, need to modify the mold structure;

D. Injection temperature is too high, need to reduce the temperature.

Defect 2: Cracked or broken.

To check for the following four reasons whether there is a defect

A. The placement of the workpiece, if any questions please put correctly;

B. Same as the POM split too fast, the solution is the same as above;

C. Shock, if found to have vibration to find the source of vibration and solve;

D. Workpiece density and weight are not up to standard, need to change the injection process.

Defect 3: Uneven debinding in the furnace

Causes and solutions:

A. The way the product is placed, need to adjust

B. B. Check the furnace temperature difference, need to test the temperature

C. There are dead ends in the furnace, need to improve the circulating air speed

Defect 4: Color change

Causes and solutions:

A. The temperature is too high to reduce the temperature

B. Nitrogen flow is insufficient, need to increase the flow

C. Feed the wax content is high, need to adjust the feed

Defect 5: Incomplete debinding

Causes and solutions:

A. Process setting, need to change the process

B. Debinding time is short, need to lengthen the debinding time

C. Nitric acid concentration is low, need to check and replacement

Defect 6: Debinding layered

Causes and solutions:

A. Debinding temperature is too high, need to reduce the debinding temperature

B. Debinding rate is not enough, need to increase the amount of acid entering

As an advanced China MIM factory, we keep providing precision MIM parts for customers from all over the world.

What Important Things We Should Focus In Powder Injection Molding Process?

There Are Some Important things We Should Focus In Powder Injection Molding Process

1. How to choose metal powders?

In a certain temperature range, the higher the sintering temperature, the greater the sintering density, little change, with the sintering temperature. In a certain range, the larger the size of the powder, the greater the sintering density. Spherical powder is conducive to improving the vibration density, improve the carrying capacity and improve the sintering density.

2. The proportion of metal powder and binder.

Viscosity increases with the increase of solid content, when the solid content of 62%, after injection, the viscosity increased sharply, so that the solid content limit (up to 62%). When the binder is not enough, there is a gap between the two will affect the powder product, the mechanical strength of the adhesive over the solid content is too low, affecting the degreasing, sintering shrinkage.

3. How to design gate and overflow?

The gate should be in a higher position in space, thereby reducing the possibility of melt friction in the mold, reducing the injection pressure and reducing the deformation of the product. In addition, the design of the flash point is also very important, the flash point for the cold material injection process to load, to ensure product consistency.


Metal powder injection molding technology not only has the "plastic injection molding" process has advantages include complex shape, easy to mass production characteristics, and with precision casting, forging close to the physical, chemical and mechanical properties, in the preparation of a three-dimensional complex geometric shape , Uniform structure and high performance of the net shape of the product has a unique advantage.

MIM technology has become the most active cutting-edge technology in the new manufacturing industry

Metal Injection Molding (MIM) is a new near net- forming powder metallurgy technology which is formed by bringing powder metallurgy in modern injection molding technology. Its basic MIM process is: mixing metal powder and binder evenly at first. Then granulating the mixture, and injecting into mould cavity in plastic state to shape product. Using chemical or thermal decomposition method to remove blanks, final products will be obtained finally after sintering.

Compared with traditional process, metal injection molding (MIM) have several advantages like high precision, uniform organization, superior performance, low production costs. Its products are widely used in electronic information engineering, biomedical equipment, office equipment, automotive, machinery, hardware, sports equipment, weapons and aerospace industries. Therefore, the international generally believe the development of metal injection molding will lead to revolutions on part forming and processing, known as "21st century molding technology."

The Parmatech company from California invented this technology in 1973, in early 80s, many European countries and Japan companies also put a lot of effort on technology research, and promoting. Especially in the mid-eighties, industrialized technology development is more rapid, growing at an alarming rate every year. So far, more than 100 companies from the United States, Western Europe, Japan etc… more than a dozen countries and regions, engaged in product development and sales. Japan is very active in the competition, and performs outstanding. Many large companies are also involved in the promotion of MIM, including Pacific Metal, Mitsubishi Steel, Kawasaki Iron and Steel, Kobe Steel, Sumitomo Mining, Seiko, Epson, Datong Steel, and so on. At present, Japan has more than 40 companies specialized in MIM industry. The sales value of MIM product has already surpassed Europe and caught up with the United States. MIM technology has become the most active cutting-edge technology in the new businesses. It’s the world's pioneer metallurgical technology, representing the main development direction of powder metallurgy Technology.

Metal powder injection molding technology combines the plastic molding process, polymer chemistry, powder metallurgy technology, metal materials and other multidisciplinary. It can be said a new change for manufacturing industry. The process not only has the advantages of conventional powder metallurgy technology --no need cutting or cutting less, high economic efficiency, but also overcomes the shortcomings of traditional powder metallurgy such as material uneven, low mechanical properties.
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What kinds of stainless steel parts maby by metal injection molding ?

In recent years, with the development of science and technology, the increasingly diversified fields of stainless steel materials can be further expanded, especially in the stainless steel as stainless steel parts, the complex shape and size of the main material is its development trend.

However, the stainless steel is also difficult to process, because of its high hardness, strength, not suitable for the production of parts of the processing methods, since the former metal injection molding appears so far, the traditional shape of simple stainless steel many excellent performance using precision casting The way to produce more, in this way the production of stainless steel parts of the dimensional accuracy, surface roughness, shape is limited, easy to produce segregation, trachoma has loose loose defects.

In addition to the use of precision casting methods, you can also use die casting - the conventional powder metallurgy method to produce stainless steel parts, but in the use of low concentrations of parts, high porosity, thereby reducing its mechanical, corrosion resistance and appearance, but this methods can only produce simple blank shapes for simple parts forming processes.

Metal injection molding process is the use of fine metal powder microns and some organic binder as injection molding feeds, the method of complex shape parts, even for some three-dimensional parts can be easily achieved in large-capacity production. The use of raw materials for the use of MIM technology for the production of stainless steel metal powder injection parts is a variety of different types of stainless steel fine powder, and the specific binder after mixing and granulation is the desired shape of the injection molded part, Generally do not need too much follow-up processing, dimensional accuracy can reach ±0.3% -0.5%, the density can reach more than 95% of the theoretical density.

These below stainless steel parts mostly produced by metal injection molding

Ignition chamber, inflatable balloon pin, inflatable balloon pin and other cars: mechanical, corrosion resistance and surface appearance of stainless steel metal powder injection parts can be used with considerable stainless steel parts, stainless steel metal powder injection common part is forged parts; space components, small arms Components, orthodontic care wards, surgical instruments, medical gas manifolds, electric toothbrush gears, watch case straps, spectacle frames, cylinders, etc .; days tweezers, pliers, drill bits and other tools, as well as some mechanical "D" Cross "and other joints.

The Lightweight Technology-Powder Metallurgy

The powder metallurgy is a lightweight technology, the most materials saving, process saving technology. Advanced powder metallurgy materials can greatly improve the strength and toughness, reduce the weight, and improve performance. For instance, turbine disk from aircraft engine is all use of the powder alloy turbine disk, because the performance is better, with higher strength, can also reduce the weight.

To develop powder alloy steel is necessarry, such as the oil pipeline if it use of powder corrosion-resistant steel and stainless steel can greatly increase the alloying elements, improve corrosion resistance, can make the oil pipe is relatively thin, but the strength, better corrosion resistance. Most of the connecting rods from Auto are made by powder metallurgy method, in the past with the traditional glaze, the material utilization rate is low, may be less than 50%, with much machining, after used powder metallurgy , forging out is a link, the material utilization rate can reach more than 90%, and the surface fatigue performance is better, the performance can also be improved by weight. 

As we know, metal injection molding(MIM) is a branch of powder metallurgy, this technology is completely suitable for small, complex, mass quantity metal parts production, in many conditions, compared to traditional manufacturing methods, it could achive(or beyond) the same functions to old parts with fewer materials, smaller shapes(glance over some successful MIM cases) . Therefore, the powder metallurgy itself is the lightweight technology.

Limitation of Metal Injection Molding

The basic MIM process steps of metal injection molding are: first select the metal powder and binder in accordance with the MIM requirements, then mix the powder and binder into a uniform feed at a certain temperature using a suitable method. Injection molding, and the obtained shaped billet is subjected to degreasing treatment and sintered to be finalized.

It’s an advanced metal parts manufacturing technology, have several advantages compared traditional methods, these MIM advantages include:

1. High utilization rate of raw materials. Material properties equivalent to wrought alloys;
2. Manufacture small size metal parts (0.02-200g) with complicated geometric shapes directly like producing plastic parts;
3. MIM parts have superior mechanical properties to castings and other PM parts, reflecting fine particle size and high sintered density;
4. Surface roughness up to Ra1.2;
5. Steady quality, high efficiency and economic manufacture of high volume complex parts;
6. No pollution, clean production process.



But Metal Injection Molding also have limitation like other technologies. Here are some disadvantages, or limits of MIM.
1. The material cost of the metal injection molding is high-Compared to powder metallurgy, MIM has higher requirements of raw materials, that makes the cost of MIM is higher.
2. The parts manufactured using this process are typically small-Due to the space of MIM furnace, the most suitable size for MIM is 10-15mm(considered the cost of powder).
3. Quantity of production, as the cost of mould is not cheap, MIM is more suitable for massive production.



With those advantages and disadvantages of Metal Injection Molding, we could know that MIM is a complement technology for traditional methods, and the 3D printing is rising, we would never know what future is. But we always choose the best solution for your metal parts manufacturing.

Commonly used sintering methods for powder metallurgy

As we know, powder metallurgy is made through the production of powder, injection, debinding, sintering, post-treatment process, and sintering is one of the important processes of powder metallurgy, in the sintering process of powder particles to flow, diffusion, melting, recrystallization and other physical chemistry Process, so that the powder body to further dense, to eliminate some or all of the pores. Let me show you powder metallurgy commonly used sintering methods.

1, Liquid phase sintering
If there are two or more components in the powder compact, the sintering may be carried out above the melting point of a certain composition, so that a small amount of liquid phase appears in the powder compact during sintering.

2, Pressure sintering
At the time of sintering, pressure to the powder body to promote its densification process. Pressure sintering is sometimes synonymous with hot pressing, hot pressing is the powder forming and sintering together, directly to the process of products.

3, Activated sintering
In the sintering process using some physical or chemical measures, the sintering temperature is greatly reduced, sintering time significantly shortened, while the sintered body performance has been improved.

4, EDM sintering
The powder body is subjected to direct current and pulsed electric power during the forming and pressing, so that the arc is generated between the powder particles and sintered. At the time of sintering, the pressure is gradually applied to the workpiece, and the forming and sintering processes are combined together.

5, Powder solid phase sintering
Loose powder or green compact in the sintering process does not occur in the composition of the powder sintering method. The solid phase sintering of powder can be divided into two parts: solid phase sintering and multistage solid phase sintering.

The above is about powder metallurgy commonly used sintering methods, powder metallurgy sintering is to compact or loose powder body to further combine to improve the strength and other properties of a high temperature treatment process.

How to choose Metal Injection Molding or Die Casting?

Actually there are so many similarities between Metal Injection Molding(MIM) and Die Casting, Both of these two metal parts producing methods take use of mould, and their producing process are sort of similar, melt metal injected into mold and forming, manufacturers always like take these two producing methods. Therefore, how to define if a metal components project is suitable for Metal Injection or Die Casting?

1.Raw Materials

Commonly used materials for

Die Casting: Aluminum Alloy, Magnesium Alloy, Zinc Alloy, and Copper Alloy in designated circumstance.

Metal Injection Molding: Varieties of Stainless Steels, Iron based.

If we dig deeper, we would find that the biggest diffence between Metal Injection Molding and Die Casting raw materials is melting point, as the melting point is higher of Metal Injection Molding, in Metal Injection Molding, the shape of raw materials is powder, and we would add binders into MIM process, and then sintering process, which is like “oven” process.

As Die Casting usually take formed materials, so we can see that Metal Injection Molding have higher raw materials requirements but more complicated producing process.

2.Size and Weight

The range of Die Casting size is much wider than Metal Injection Molding. It also means Metal Injection Molding have limitation in size nowadays, usually can produce metal parts under 200g.

For the product’s weight of these two manufacturing methods, due to the “binders” wouldn’t remove completely in MIM process, whereby the MIM components would be lighter. In the “lose weight” stream of many industies today, it’s an very important way to achive.

3.Quantity and Costing

Costing is always an important fector when choosing manufacuring process. While the quantity is always an important factor need to be consider. And both of Metal Injection Molding and Die Casting must make mold.

But in generally, when quantity is exceed one specific number, Metal Injection Molding would cheaper than Die Casting.

In any way, the best important reason to choose Metal Injection or Die Casting is raw materials, and specific individual requirements of each metal part project. Last but not the least, take consideration about the quantity for budget control.

ZCMIM, the advanced Metal Injection Molding Manufacturer in China, always offer the best choice for customers not just MIM.

Case Study-Sensor Support Components Improvement by MIM

Metal Injection Molding offers several advantages than traditional production technologies when mass quantity and precision metal parts producing.
This component is a part of sensor supporting bracket, which is originally designed for machining. But ZCMIM, the China MIM manufacturer took MIM technology to improved it finally, reducing weight from 42.5g to 25g, and its shape got more complex, so with its functions of course.

#Mimprocess The MIM process combines the design flexibility of plastic injection molding with the strength and integrity of wrought metals to offer cost effective solutions for highly complex part geometries. The MIM process is typically explained as four unique processing steps (Compounding, Molding, Debinding and Sintering) to produce a final part that may or may not need final finishing operations.

Differences between #StainlessSteel304 and 316

 Both stainless steel 304 and stainless steel 316 belong to 18Cr-9Ni, which are typical representative of austenitic stainless steel Cr-Ni 18-8. Stainless steel 316 rise Ni content, reducing Cr content and adding 2 % to 3% Mo(molybdenum). 

Stainless steel 316(or 06cr17ni12mo2) added Mo, so its corrosion resistance in high temperature is very good. It can be used in critical conditions and has excellent work hardening (no-magnetic). Stainless steel 316 is commonly used in water equipment, chemical, dyestuff, papermaking, oxalic acid, fertilizer, food, industrial equipment, vessel, pipeline, and coastal areas. http://www.zcmim.com/

the structure characteristics of sintering furnace

According to the structure characteristics of sintering furnace could be divided into two types: vertical and horizontal, again by way of working can be divided into intermittent (each loading must stop the furnace) and continuous (loading without cooling) under two categories.The structure of the sintering furnace according to the heating mode in general can be divided into two categories, resistance heating furnaces and induction heating furnace, they are also of sintered body can be divided into direct electricity heating and indirect electric heating two forms, according to the different sintering temperature, sintering equipment can be divided into medium temperature sintering furnace (900-950 ° C) and high temperature sintering furnace (110-1700 ° C) two categories, according to the different protective atmosphere can be divided into air sintering furnace and the sintering furnace of hydrogen (such as molybdenum wire furnace, stainless steel tube type hydrogen furnace), vacuum sintering furnace, etc.This section mainly introduced the bell jar type vacuum sintering furnace tube, silicon molybdenum rods sintering furnace, furnace molybdenum wire.

the working principle of high temperature molybdenum wire sintering furnace

High temperature molybdenum wire sintering furnace working principle is: using three root corundum tube furnace tube, on each corundum tubes around the heating wire, heating element from the merger of dogan molybdenum wire twisted, heating through heat transfer between the product, in the first paragraph corundum tube on iron chromium aluminum nichrome wire winding, the second and third paragraphs corundum tube on molybdenum wire winding, ensures the furnace can work under high temperature 1400-1600 ° C, the product use the high temperature, a third of the total length of the stove products from low to high temperature, slow to prolong service life, should prevent the molybdenum wire furnace use too much electricity, cold room to heat up, slowly even.

Original article link：http://www.zcmim.com/article/the-working-principle_1.html

thermal degreasing furnace

thermal degreasing due to simple, easy to control and become the preferred method of production.Thermal degreasing on industrial operations can be divided into the vacuum thermal degreasing and atmosphere thermal degreasing, vacuum thermal degreasing principle is: the injection of billet heating in a vacuum to the binder composition volatile or decomposition temperature, makes the adhesive thermal decomposition of state changes, into a gaseous substance removal.In low temperature, the binder low vapor pressure, realize the evaporation part removal, temperature rise to binder decomposition temperature, decomposition reaction, more binder removal.

Original article link：http://www.zcmim.com/article/thermal-degreasing-fur_1.html

degreasing equipment

Degreasing process is a process with the characteristic of metal injection molding technology, according to the different way of working equipment, degreasing equipment can be divided into the batch of material type degreasing furnace, catalytic degreasing furnace, for metal injection molding using in practical production more paraffin base binder system, thermal degreasing is the most commonly used, and most important degreasing method, catalytic method was advanced degreasing degreasing is relatively new, but its have special request for feeding, the following focuses on industrial production the commonly used thermal degreasing furnace, solvent degreasing furnace and catalytic degreasing furnace.

Original article link：http://www.zcmim.com/article/degreasing-equipment_1.html