Sintered Steel Market, Industry Size Growth Forecast ...

Sintered Steel Market

Sintered Steel Market is projected to grow from USD 24.4 billion in to USD 29.5 billion by , at a cagr 3.9% during the forecast period. The market growth is driven by growing manufacturing and industrial sector. The industrialization and infrastructure development in emerging economies, such as China, India, and Southeast Asian countries, have increased the demand for sintered steel. The rapid urbanization, construction activities, and industrial growth in these regions drive the demand for sintered steel components in various sectors. Sintered steel finds applications in various industries, including machinery, construction, aerospace, and consumer goods. The increasing production activities and infrastructure development contribute to the demand for sintered steel components.

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Attractive Opportunities in the Sintered Steel Market

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Sintered Steel Market Dynamics

Driver: Growing automotive industry

The growing automotive industry plays a significant role in driving the growth of the sintered steel market. The automotive industry is a major consumer of sintered steel components. As the global automotive production continues to rise, there is a higher demand for sintered steel parts in various vehicle systems. Sintered steel components are used in engines, transmissions, brakes, steering systems, fuel systems, and many other applications within vehicles. Sintered steel offers cost advantages over other manufacturing methods. The sintering process allows for efficient use of raw materials, reducing material waste and production costs. As the automotive industry seeks cost-effective solutions without compromising quality and performance, sintered steel becomes an attractive choice for various components. The growing automotive industry's focus on lightweighting, cost-efficiency, complex shapes, and high-performance applications aligns with the strengths of sintered steel. This synergy between the automotive industry's needs and the advantages of sintered steel drives its adoption and contributes to the growth of the sintered steel market.

Restraint: Volatile raw material (metal powders) prices

Raw material price fluctuations can be a considerable restraint for the sintered steel market, affecting the profitability and competitiveness of sintered steel companies The main raw materials required for sintered steel production include various metal powders such as iron, steel, tin, nickel, copper, molybdenum, and aluminum. When the cost of these raw materials increases, the cost of production increases. If sintered steel companies pass on these increased costs to their customers, they may lose business to competitors who can offer lower prices.

Opportunities: Growing electric vehicle (EV) market

The growing electric vehicle (EV) market presents significant opportunities for the sintered steel market. Electric vehicles require a range of specialized components, including electric motor cores, battery contacts, connectors, and power electronics. Sintered steel is well-suited for manufacturing these components due to its magnetic properties, high conductivity, and good dimensional accuracy. As the EV market expands, there will be a surge in demand for these sintered steel components, creating new opportunities for manufacturers.

Challenges:  Material limitations

The mechanical properties of sintered steel, including strength, toughness, and fatigue resistance, can be influenced by factors such as powder composition, powder particle size distribution, and sintering conditions. Achieving specific mechanical properties can be challenging, and sintered steel may not always match the performance of other materials, such as forged steel or certain alloys, in demanding applications.

Despite these challenges, sintered steel remains widely used in various industries due to its advantages in terms of cost-effectiveness, complex shape capabilities, and the ability to produce large quantities of components with good mechanical properties. Manufacturers continuously work on improving sintering techniques and developing new materials to address these challenges and expand the application potential of sintered steel.

Ecosystem

By Steel Type, Tool steel accounted for the highest CAGR during the forecast period

Tool steel is a type of high-speed steel used in tool production. It is manufactured through a process that involves pressing powdered tool components to achieve the desired shape and density. This near-net-shape manufacturing technique reduces the need for extensive machining and allows for precise shaping. To enhance its properties, hot-temperature cemented carbides are added to the tool steel, ensuring optimal density and uniform carbide distribution. The resulting high-density tool steel exhibits excellent grindability and possesses desirable characteristics such as hardness, wear resistance, and toughness. These qualities make tool steel suitable for a wide range of tool applications in industries such as manufacturing, construction, automotive, aerospace, and woodworking. It is commonly used to create various tools, including drills, cutting blades, punches, dies, molds, and tooling components.

By Process, Additive manufacturing accounted for the highest CAGR during the forecast period

The additive manufacturing (Am) is the fastest growing in the sintered steel market during the forecast period. Additive manufacturing is experiencing rapid growth in the sintered steel market due to several factors. It offers design freedom, allowing the creation of complex geometries and customized parts. The reduced material waste and improved manufacturing efficiency make it cost-effective. Additive manufacturing enables faster prototyping and shorter time-to-market. It also provides increased design flexibility and customization options. Advancements in materials and technology have expanded its capabilities, leading to higher densities and improved mechanical properties in sintered steel products. Overall, additive manufacturing is driving innovation and transforming the manufacturing landscape in the sintered steel market.

By Application, Engines accounted for the highest CAGR during the forecast period

Engine applications dominate the sintered steel market. This is primarily due to the exceptional mechanical properties offered by sintered steel, including high strength and wear resistance, which make it well-suited for engine components operating under extreme conditions. The cost-effectiveness of sintered steel, achieved through near-net shape production and reduced material waste, appeals to engine manufacturers seeking efficient solutions. Furthermore, the design flexibility of sintered steel allows for the creation of customized and intricate shapes, enhancing engine performance. The strong demand from the transportation industry, along with the continuous growth in vehicle production and technological advancements, further contributes to the significant presence of engine applications in the sintered steel market.

By End Use Sector, Electrical accounted for the highest CAGR during the forecast period

The demand for sintered steel in the electrical industry is driven by the increasing adoption of renewable energy sources, such as wind and solar power. Sintered steel is utilized in the manufacturing of electrical contacts, connectors, and other components for renewable energy systems. As the renewable energy sector continues to expand, the demand for sintered steel in this industry is expected to grow significantly.

Sintered steel, with its high thermal conductivity, can aid in heat dissipation in electrical applications. It is often used in heat sinks and thermal management solutions, where it helps transfer heat away from sensitive electrical components, preventing overheating and ensuring efficient operation.

Asia Pacific is projected to account for the highest CAGR in the sintered steel market during the forecast period

The Asia Pacific region, particularly countries like China and India, is undergoing rapid industrialization and urbanization. This has led to increased demand for various sectors, including automotive, construction, and machinery, which are major consumers of sintered steel products. The expanding industrial base and infrastructure development projects are driving the growth of the sintered steel market in the region.

The Asia Pacific region is one of the largest automotive manufacturing hubs globally. Sintered steel components are extensively used in the automotive sector for applications such as engine parts, transmission components, bearings, and braking systems. The increasing production of vehicles in countries like China, Japan, India, and South Korea has propelled the demand for sintered steel in the region.

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Key Market Players

Sintered steel market comprises key manufacturers such as Sumitomo Electric Industries Limited (Japan), GKN Powder Metallurgy (UK), Samvardhana Motherson Group (India), Resonac (Japan), The Miba Group (US), ASCO Sintering Co. (US), Schunk Sinter Metals (Germany), AMES Sintering Metallic Components (Spain), and Sintercom India Ltd. (India) and others. Expansions, acquisitions, joint ventures, and new product developments are some of the major strategies adopted by these key players to enhance their positions in the sintered steel market. Major focus was given to the new product development due to the changing requirements of transportation and electronics product consumers across the world.

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Scope of the Report

:

Report Metric

Details

Years Considered

&#;

Base year

Forecast period

&#;

Unit considered 

Value (USD Million/Billion), Volume (Tons)

Segments

Type, Process, Application, and Region

Regions

North America, Asia Pacific, Europe, South America, and Rest of the World

Companies

The major players are Sumitomo Electric Industries Limited (Japan), GKN Powder Metallurgy (UK), Samvardhana Motherson Group (India), Resonac (Japan), The Miba Group (US), ASCO Sintering Co. (US), Schunk Sinter Metals (Germany), AMES Sintering Metallic Components (Spain), and Sintercom India Ltd. (India).

This research report categorizes the global sintered steel market based on Steel Type, Process, Application, and Region

On the basis of Steel Type:

• Stainless Steel
• Carbon Steel
• Alloy Steel
• Tool Steel

On the basis of Process:

• Metal Injection Molding (Mim)
• Additive Manufacturing (Am)
• Conventional Manufacturing
• Powder Forged Manufacturing

On the basis of Application:

• Engines
• Transmissions
• Bodies
• Chassis
• Drivetrains
• Electrical Appliances
• Others

On the basis of End Use Industry:

• Transportation
• Electrical
• Industrial
• Others

On the basis of Region:

• North America
• Asia Pacific
• Europe
• South America
• Rest of the World

The market has been further analyzed for the key countries in each of these regions.

Recent Developments

• In March , A definitive license agreement was signed by Sumitomo Electric Industries Ltd. and US Conec Ltd., allowing Sumitomo Electric Lightwave Corp. to produce MMC connector and TMT ferrule components for the use in the deployment of next-generation, high-density, multi-fibre cable solutions.
• In May , Sumitomo Electric Industries, Ltd. and the National Institute of Information and Communications Technology (NICT) have jointly achieved a major breakthrough in optical fibre technology. They have developed a multi-core optical fibre with an impressive 19 cores, which is the largest number of cores ever achieved in a standard outer diameter (0.125 mm) fibre. They successfully transmitted data at a staggering speed of 1.7 petabits per second over 63.5 km.
• Resonac, formed on January 1, , through the merger of Showa Denko and Showa Denko Materials (formerly Hitachi Chemical), marks a new beginning for the company. Their goal is to achieve global leadership in the chemical industry by prioritizing advanced functional materials and continuous transformation initiatives.
• In October , For the development of multicore optical fibre cable, Sumitomo Electric Industries, Ltd. partnered with OCC Corporation, a fully owned subsidiary of NEC Corporation.
• In May , Sumitomo Electric Industries, Ltd. acquired 100% shares of the European manufacturers of powdered metal components, Sinterwerke Herne GmbH (SWH, Germany) and Sinterwerke Grenchen AG (SWG, Switzerland). Its Powder Metal Products Division operates globally along with Sumitomo Electric Sintered Alloy Ltd.

Frequently Asked Questions (FAQ):

What are the major drivers driving the growth of the sintered steel market?

The sintered steel is expected to witness significant growth in the future due to growing automotive industry, growing manufacturing & industrial sector.

What are the major challenges in the sintered steel market?

The major challenges in the sintered steel market are low awareness of powder metallurgy technology and material limitations.

What are the restraining factors in the sintered steel market?

The major restraining factor faced by the sintered steel market are volatile raw material (metal powders) prices and competition from alternative materials.

What is the key opportunity in the sintered steel market?

Growing electric vehicle (EV) market and emerging technological advancements in the powder metallurgy industry are key opportunity in the sintered steel market.

What are the end-use industries where sintered steel components are used?

The sintered steel components are majorly used in transportation, electrical, industrial equipment manufacturing industries. .

To speak to our analyst for a discussion on the above findings, click Speak to Analyst

 

For Sintered Metal, What is that ? 

What is Sintered Filter Working Principle ? 

Short to say, Because of the stable porous frame, sintered metal filters are one of the better filtration elements

nowadays. Also, the metal materials' high temperature, high pressure, and corrosion resistance can help you

easily complete the filtering task in a harsher environment, Separating and filtering out excess impurities

you don't need or helping you extract higher purity gases or liquids for your project.

 

Maybe You Should not hear this word much in your daily life. 

But nowadays, sintered metal to use more and more in various industries, the sintered metal has started to become

the key technology in some manufacturing.

 

Then What Exactly is a Sintered Metal &#;

Actually, it is a branch of the powder metallurgy industry, in short, is the 316L stainless steel  powder through the mold

shaping, high temperature sintering into the shape and function of a process that we need.

 

Then, Firstly, sintered. What is sintered? Sintering is the process of compacting and forming a solid mass of material

by heat or pressure without melting it to the point of liquefaction. Sintering is part of a manufacturing process used

with metals, ceramics, plastics, and other materials. Wikipedia

 

As Wikipedia describes, many kinds of materials can be sintered, and different materials sintered products have

different applications. Then here we like to talk more details about sintered metal. 

 

History of Sintering Metal 

1. Who Inventions the sintering and started to use the sintered products? 

According to historical records, the sintering process emerged during the second industrial revolution 18th century

in Sweden and Denmark. Sintered iron was found during the smelting process in coal mines. But till , people

started to use the sintered metal to the filtering oil. And for , the first used HyPulse® filtration technology for

continuous slurry oil filtration.

 

It marks the beginning of sintered metal filters.  

The setup demonstrated the suitability of sintered metal media for heat filtering of slurry oil for a carbon fiber

growth process.

The filter ran accurately for years creating clean oil with solids material of less than 20 ppm solids and was

eventually closed down due to low item demand. Since then, refineries worldwide have become aware of the

advantages of filtration using sintered metal media for catalyst fines elimination in slurry oil solutions.

 

 

 

Since , many refineries in China have mounted LSI purification systems for stimulant elimination in resid

fluid catalytic fracturing (RFCC) systems. Set up A filtration system with (2) 24" LSI filters was set up in an RFCC

system with 1.4 million statistics bunches (mt) each year capability and a result of slurry oil of 180 mt/day. The

slurry oil has an ordinary 3,000 to 5,000 ppm solids focus. Cycle time varies from 2 to 8 hours. The filtrate solids

material is under 50 ppm. The filter is controlled by a local PLC that communicates with the refinery distributed

control system (DCS) to enable the driver to monitor the purification in the control space. The system has

constantly been running, providing a local business with clean filtrate to generate carbon black.  So as the

application, the sintered Metal, It is mainly used to filter or separate solids or magazines from liquids or

gases for the purpose of purification.

 

2. So What is Sintered Metal Filter ? 

 

A simple definition of sintered metal filter: It is a metal filter that uses metal powder particles of the same

particle size to be shaped by a stamping, high-temperature sintering process. Sintering is the process of

metallurgy using powder-sized bodies of different metals and alloys after stamping.

Metallurgy occurs by diffusion at temperatures below the melting point of high-temperature furnaces.

The metals and alloys commonly used today include aluminum, copper, nickel, bronze, stainless steel,

and titanium.

 

There are different processes you can use to form the powder. They include grinding, atomization,

and chemical decomposition.

 

 

3. What the Sintering Metal Filter Manufacturing Process  

 

      Then, so here, we like to check the process detail of  Metal filter manufacturing. if interested, please check below: 

     1.) What is Sintering, Why Use Sintering?

     Simple definition sintering is metal powder is bonded together by high temperature and other methods into

    the desired module. In the micron range, there is no physical limitation between the metal powder particles,

     which is why we can control the pore distance

     through the production process.

      The porous cartridge of the sintering process provides the stable shape of the metal and provides

      the material with the performance of robust filtration.

 

 

     2.) 3-Main Steps of Sintered Metal Filter Manufacturing 

 

          A:  First Step is To Get the Power Metal.

          The metal powder, You can obtain metal powders by grinding, atomization, or chemical decomposition.

           You can combine one metal  powder with another metal to form an alloy during the fabrication process,

           or you can use only one powder. The advantage of sintering is that it does not change the physical

           properties of the metal material. The process is so simple that the metal elements are not altered.

 

         B:  Stamping

        The second step is to pour the metal powder into a pre-prepared mold in which you can shape the filter.

        The filter assembly is formed at room temperature and under stamping. The amount of pressure applied

        depends on the metal you are using, as different metals have different elasticity.

        After a high-pressure impact, the metal powder is compacted in the mold to form a solid filter.  After the

        high-pressure impact procedure, you can place the prepared metal filter in a high-temperature furnace. 

 

        C:  High-temperature Sintering

      In the sintering process, the metal particles are fused to form a single unit without reaching the melting point.

      This monolith is as strong, rigid, and porous a filter as the metal.

      You can control the porosity of the filter by the process according to the flow level of the air or liquid to be filtered.

 

      The sintered media grade designation is equivalent to the mean flow pore, or average pore size of the filter.

      Sintered metal media are offered in grades 0.1, 0.2, 0.5, 1, 2, 5, 10, 20, 40 and 100. The filtration rating in

      liquid for media grades 0.2 to 20 is between 1.4 and 35 µm absolute. The filtration rating in gas ranges

      from 0.1 to 100 µm absolute.

    

 

4. Why to Use Metal Sintering to Make Filter? 

This is a good question, why use metal to make a filter? 
The answer is simple, and although there are many reasons, the cost is the most important. 

Why Cost ? 

Yes, the sintered metal has a stable structure and can be reused, clean, and used many times.

And also, different metals have stable physical and chemical properties and are not easily damaged. 

It is why more and more Sintered Filters are used in different industries.

 

5. What are the Material Choices for Sintered Filters?  

     With the continuous progress of powder metallurgy technology, there are more choices of

    materials for sintered metal filters,

    You can choose from many other metals and alloys to meet special requirements of higher

    temperature and pressure, corrosion resistance etc , Main metal materials such as : 

1. Stainless Steel Filter ; 316L, 304L, 310, 347 and 430

2. Bronze

3. Inconel® 600, 625 and 690

4. Nickel200 and Monel® 400 (70 Ni-30 Cu)

5. Titanium

6. Alloys 

      More and more metal will be used in the future. 

 

6.

8

-Main Advantages of Sintered Metal Filter 

     

   1. ) Corrosion resistance

         Most metals are inherently resistant to corrosion, such as sulfides, hydrides, oxidation, etc.

    2. ) More effective removal of contaminants

          Adjusting the porosity of the cartridge to the fluid means you can achieve the perfect

         filtration you want and get a contaminant-free fluid. Also, since the filter does not corrode,

         the filter's reaction does not result in the presence of contaminants in the fluid.

    3. ) High Thermal Shock

          During the manufacturing process, high heat is generated, and the physical properties of

          these metals help absorb the filter's great thermal shock. As a result, you can use these

          filters in a wide range of applications depending on the thermal range of the application. 

          Great thermal shock also ensures effective fluid filtration without having to worry about

          the heat of the application.

    4&#;) Reasonable Pressure Drop

          A sintered metal filter can maintain fluid pressure in your application, thus ensuring

          maximum operation.

           A slight pressure drop can harm your application.

   5. ) Temperature and Pressure Resistance

          You can use this filter in applications with high temperatures and pressures without

          worrying about your filter element.

          Using sintered metal filters in the production process of chemical reactions and gas

          treatment plants ensures you get the best filtration results.

 

   6. ) Tough and Resistant to Breakage

         Another benefit of using a sintered metal filter is that it is strong and resistant to

         fracture.

         During the manufacturing process, the bonding of metals occurs at temperatures well

         below the melting point.

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For more information, please visit stainless steel sintered filter.

         The resulting product is a tough sintered metal filter that can withstand various

         harsh environments.

         For example, you can use it in applications requiring friction without fear of breakage.

 

    7.)  Fine Tolerances

          Fine tolerances mean that your sintered metal filter can filter your fluid without reacting.

         Once your filtration is complete, the sintered metal filter will retain its physical properties.

         However, it would help if you made sure that the metal you choose for your filter will not

         react with the fluid you are filtering

 

    8.)  A range of Geometric Possibilities

         Sintered cartridges allow you to enjoy a wide range of geometric options. You can achieve

         this while inserting the powder into the dye during manufacturing.

        The mold is the one that should design your filter.

         Therefore, you are free to operate the design according to your specifications.

         For example, if your application requires a small filter, you can easily manipulate the design

         to obtain a smaller

         sintered metal filter. Likewise, if your application has a distinctive design, you can easily

         manipulate the design in the mold during manufacturing.

 

 

7. How Sintered Metal Filters Work?  

      This problem can also be said to be the working principle of sintered metal filters. Many people think

      that this question is very difficult to answer, and it is not. You may be surprised by this, but maybe you

      won't be after reading my explanation.

      Sintered metal filters are very useful filters. The collection of contaminants occurs on the surface of

      the fluid; when the fluid passes through the metal filter, the large particles and contaminants will be

      left on one side of the cartridge, but when choosing an effective filtration level for your fluid, you

      need to make sure that it can even filter the requirements. 

 

      These Requirements Include 

 1. Contaminant Retention Backwash Capability 

 2. Pressure Drop

  For pressure drop, you need to consider several factors.

  These factors include 

A Fluid viscosity, fluid velocity as it flows through the filter element, and contaminant characteristics. 

B Contaminant characteristics include particle shape, density, and size. 

If the contaminant is hard and regular in shape, forming a dense cake, then surface filtration is appropriate.

 

The Effectiveness of Sintered Metal Filtration Depends on

1. the increased pressure drops to the point where the absolute pressure is reached. 

2. the constant flow of the fluid. 

You can achieve end conditions by thickening contaminants that increase to the point where the fluid pressure drops. 

This pressure drops continuously until the maximum drop for a given viscosity and flow rate requirement is reached.

Another important issue is the back washing of the filter, which is performed by pressurizing the gas to the screen and rapidly

opening the backwash discharge valve as the backwash occurs.

 

 

A high reverse instantaneous pressure differential is generated. It effectively removes contaminants from the filter

element surface. The reverse flow of clean fluid through the filter element removes contaminants and directs them

out of the filter.

The steady rise in pressure drop rate indicates a consistent and uniform distribution of contaminant size. To

achieve consistent performance, you must ensure that the filter element's pressure drop is stable. If the temperature

of the fluid changes, it affects the viscosity of the fluid. In this case, the pressure drop across the filter element will

increase and not achieve the filtration effect. 

 

Therefore, you need to maintain the working temperature of the filter during the filtration process and

ensure the temperature of the fluid and the pressure. When cleaning the filter, you need to follow the

correct back washing procedure.

 

How the Sintered Metal Filters Works ?

You can easy to understand when you check the follow Working principle diagram

 

As follow is main 8-Kinds of The working principle of metal filtration, hope it will be helpful for you to

understand more for how sintered metal Filter can help for fiteration liquit, gas and voice.

 

1.) Liquid & Gas Filtration/Separation

Sintered Metal filters can reduce or completely remove particulate matter from a gas or liquid medium.

Particulate matter can include but is not limited to suspended particles (sediment, metal chips, salt, etc.),

algae, bacteria, fungi spores, and unwanted chemical/biological contaminants. Metal filter pore sizes

can make to be range from 0.2 µm &#; 250 µm. 

 

 

Some of Sparging Applications :

Soda Carbonization

Beer Carbonization

Oxygen Stripping of Edible Oils

Sparging is the introduction of a gas into a liquid. It is used to either remove an unwanted dissolved gas

(oxygen stripping) or a dissolved volatile liquid. It can also use to introduce a gas into a liquid (carbonization).

Traditional sparging created bubbles with a diameter of 6 mm. PM filter sparging allows for an even smaller

bubble diameter, thus increasing the surface area of the bubbles creating a more efficient sparging

application by decreasing process time.

 

 

3.) Breather Vents

Sintered metal filters are also used as breather vents in cylinders, gearboxes, manifolds, hydraulic systems,

reservoirs, and other systems. Breather vents allow pressure equalization and air/gas in and out of a system

while blocking particulate matter from entering the system. Metal filters can be back washed to remove particulate

matter, giving them a longer lifespan as a breather vent than other filter media.

 

 

4.) Sensor Protection

Sintered Metal Filters can also protect electronic components as a cover, such as thermometers,

various sensors, key components of medical systems, and other sensitive products from water,

liquids, sediment, dust, and pressure fluctuation. 

 

 

5.) Flow Control ( Throttling / Dampening ) 

A special sintered filter can control the flow within an air, gas, vacuum, and fluid flow system. The

filter's uniform pore sizes allow for consistent, repeatable flow regulation and protect valves, sensors,

and anything else downstream in the system from contaminants. Flow control is used in such

applications as pneumatic timers, gas supply control elements, and time delay elements in

automotive applications. 

 

 

6.) Air Exhaust Silencers

Sintered filters can also be welded or sinter-bonded to any required fitting, allowing them to work as an

exhaust silencer. The filter cannot only protect solenoids and manifolds from contaminants inside the

system but also minimizes the noise level of exhaust from the system. The air exhaust silencer filters

also lower the air blowing out from the system, which minimizes contaminants wafting, Protecting

the environment.

 

 

7.) Flow / Pressure Equalization

Sintered filters can equalize and control a system's flow rate and pressure. Equalization protects

systems against a surge of liquid and creates a uniform flow as the gas or liquid moves across

the uniform pores.

 

 

 

 

8. What Are Sintered Filters Used For ? 

  

      For this question, Actually more people will ask What are the application of sintered metal Filters?

After such a complicated process, where will the sintered metal filter cartridges be used?

The truth is that you can find these filters in various industries.

 

Common applications include the following.

     1) Chemical processing

You can find sintered metal filters in the chemical solvent and gas processing industries, including the

nuclear industry. The corrosion, high temperature, and non-reaction to chemicals make sintered metal

filters a distinct advantage in

the chemical processing industry.

 

     2 ) Petroleum refining

For petroleum refining, to effectively filter different fuels

We need to use different metal filters according to the degree level to complete the filtration of the

specific fuel from the feed stock. Yes, sintered metal filters can help you achieve this goal.

Because metal filters do not react chemically with the fuel.

Therefore, the specific fuel will be free of any contaminants after filtering.

In addition, you can use it at temperatures up to 700°, which is common in petroleum refining.

 

    3.) Power generation

    Hydroelectric power generation requires the continuous operation of a turbine. Still, the

environment in which the turbine operates often requires filtration to achieve a body of water in

which the turbine is free of any impurities.

If the turbine is overloaded with impurities, it will wind up and prevent the turbine from rotating,

and then the turbine will not generate electricity. You can use sintered metal filters to ensure

effective and efficient power generation.

These filters are used to generate electricity by filtering water from the turbine.

Because they are not eroded by water, the turbine will work for a long time.

 

    4.) Natural gas production

    Another important area of application for sintered metal filters is gas production.

Sintered metal filters are very useful in gas production because they do not react with the gas,

and you can use them in different environments.

    5.) Food and beverage 

    Metal filters extract essential nutrients and juices in the food and beverage processing industry.

Metal filters effectively filter and prevent these nutrients from being washed away during processing.

The advantage of the same metal filters is that they do not react with specific foods or beverages.

When using these filters guarantees the quality of your production process.

 

 

9. What kind of

Sintered Metal Filters 

HENGKO Can Supply ?  

HENGKO main supply 316L, 316 and bronze sintered metal filers. main shape such as follow list:

etc., any shape your project requires. 

 

Sure, we supply O.E.M Service

1.  O.E.M Shape : Disc, Cup, Tube, Plate ect

2.  Customize Size, Height, Wide, OD, ID 

3.  Customized Pore Size / Apertures from 0.1μm - 120μm

4.  Customize different Thickness 

5. Mono-layer, Multi-layer, Mixed Materials

6. Integrated design with 304 stainless steel housing

 

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