Plate Heat Exchangers: What are their types?

A plate heat exchanger is a type of heat exchanger that uses metal plates to transfer heat between two fluids. It has a major advantage over traditional shell and tube heat exchangers because it is a much more efficient heat transfer. Plate heat exchangers are used in various industries, from food and beverage processing to chemical manufacturing. You might wonder about the available types if you're in the market for a plate heat exchanger (PHE).

This blog post will look at the three main types of PHEs: gasketed, brazed, and welded. Each type has advantages and disadvantages that make it better suited for certain applications. By the end, you should know which type is right for your particular application.

Gasketed plate heat exchangers are the most common type of PHE. They're made up of a series of plates, each with a gasket bolted together. The gaskets prevent the two fluids from coming into direct contact with each other but allow them to flow past each other to transfer heat. The plates are usually made of stainless steel but can also be made of other materials, such as titanium or nickel alloys. Gasketed PHEs can be used with various fluids, including water, steam, oil, and chemicals. Gasketed plate heat exchangers are relatively easy to maintain and clean, making them ideal for food and beverage processing facilities.

Brazed plate heat exchangers are similar to gasketed plate heat exchangers, but the plates are joined together with a brazing material instead of gaskets. It makes them more resistant to high temperatures and pressures. These are often used in power plants and other heavy industrial applications. Brazing is a process in which two metals are joined together using a third metal with a lower melting point than the other two. BPHEs can be made from various metals, including copper, stainless steel, and nickel alloys. They're often used in applications with the potential for corrosion or leaks.

Welded plate heat exchangers (WPHEs) are made of a series of welded plates. They can be made from various metals, including stainless steel, carbon steel, and nickel alloys. WPHEs are often used in applications with high pressure or temperature potential. Welded plate heat exchangers are made by welding the plates together at the edges. It creates a stronger joint that can withstand higher temperatures and pressures than either gasketed or brazed plate heat exchangers. Welded plate heat exchangers are commonly used in petrochemical plants and other industrial facilities where they will be exposed to harsh chemicals and corrosive materials.

Plate heat exchangers are essential to many industrial processes, from food and beverage processing to chemical manufacturing. There are three main types of plate heat exchangers: gasketed, brazed, and welded. By understanding the different types of plate heat exchangers, you can choose the one that is best suited for your needs. And now that you know about the different types of PHEs available in the market, you can make an informed decision about which is right for your application.

If you have questions about PHEs or need help selecting one for your specific needs, please don't hesitate to contact Pragya Associates. Our team of experts would be more than happy to assist you.

Rahul Engineering Global Private Limited is a reputable engineering company based in Pune, India. With a strong commitment to innovation and quality, the company has established itself as a leading provider of industrial solutions, specializing in the manufacturing of Shell & Tube Type Heat Exchangers. With a dedicated team of skilled professionals and state-of-the-art facilities, Rahul Engineering Global Private Limited delivers reliable, efficient, and customized heat exchange solutions to clients across various industries.

Shell & Tube Type Heat Exchangers in Pune India | Rahul Engineering Global

Shell And Tube Heat Exchanger Manufacturers In India | Oil Cooler Heat Exchanger Manufacturers In India

Phoenix Industries at a Glance

We Are Leading Shell And Tube Heat Exchanger Manufacturers In India, Oil Cooler Heat Exchanger Manufacturers In India .Heat Exchangers Are Used In Variety Of Industries Like Oil And Gas Industries, Chemical Industries, Power Industries, Marine Applications, Defense Industry For Desired Applications.

Phoenix Industries is an ISO 9001:2015 certified company that has been designing and manufacturing shell and tube type heat exchangers, Sealant Injection Grease Fittings, High Pressure Instrumentation Valves, Heat Exchangers, Precision Machined Components and Sub-assemblies for Oil and Gas Industries, Chemical Industries, Power Industries, & Marine Applications, Foundries for the last 22+ years.

Our founder Mr. Sachin Kulkarni is an epitome of experience and motivates his robust team to perform above expectations. The company is being managed by promoters who have the required technical and financial expertise and they work in synchronization with a dedicated team of engineers and technocrats to excel in everything they do.

We believe in ‘KAIZEN’ a Japanese principle of quality management which enables us for continuous improvement of our products and services, and hence maintaining ‘TOTAL QUALITY MANAGEMENT (TQM)’. We assure you the ‘Best’ quality product with ‘excellent’ services using precision machines and latest technology at most competitive prices.

Rahul Engineering Global provides India's Best best Shell & Tube Type Heat Exchangers. We offer different types of Products such as heat exchangers Manufacturer, Titanium Heat Exchanger.

Heat Exchanger Manufacturer In India

Shell and Tube Heat Exchanger

A Shell and Tube Heat Exchanger consists of a Shell and either improved surface tubes for high thermal performance or traditional plain tubes.

Our Galaxyprocess industries heat exchanger manufacturer plant is strongly supported by an in-house design facility that is outfitted with the newest design codes and software, as well as a welding development department that can construct a manufacturing method for any new material.

A shell and tube heat exchanger is a type of heat exchanger that consists of a shell (or housing) and a bundle of tubes. It is one of the most common and widely used heat exchanger designs due to its versatility and efficiency. Shell and tube heat exchangers are used in a variety of industrial applications for transferring heat between two fluids, typically a hot fluid and a cold fluid, while keeping them physically separated. • The basic construction of a shell and tube heat exchanger involves a cylindrical shell that contains a bundle of tubes. The shell has two main fluid chambers: one for the hot fluid and another for the cold fluid. The tubes are typically made of materials such as copper, stainless steel, or titanium, and they are arranged in a parallel or helical pattern within the shell. • The hot fluid flows inside the tubes, while the cold fluid flows through the shell space surrounding the tubes. Heat is transferred from the hot fluid to the cold fluid through the tube walls. The tube walls act as the heat transfer surface, allowing efficient heat exchange between the two fluids. • To enhance heat transfer, the tube side of the heat exchanger may have various types of internal enhancements, such as fins or turbulators, which increase the surface area available for heat transfer. These enhancements promote turbulence and improve heat transfer efficiency. • Shell and tube heat exchangers can be designed with different configurations, including fixed tube sheet, floating head, and U-tube designs. The choice of configuration depends on factors such as operating conditions, ease of maintenance, and the specific requirements of the application. • Advantages of shell and tube heat exchangers include their ability to handle high-pressure and high-temperature applications, their resistance to thermal stress, and their versatility in accommodating a wide range of fluids. They are commonly used in industries such as petrochemical, power generation, chemical processing, HVAC, and refrigeration. • However, shell and tube heat exchangers also have some limitations. They tend to be larger and heavier compared to other heat exchanger types, and they may require more space for installation. Additionally, they can be more expensive to manufacture and maintain compared to other designs. • Overall, shell and tube heat exchangers are widely used due to their effectiveness in transferring heat between fluids while maintaining a high level of reliability and safety in various industrial applications.

https://www.phoenix.ind.in/oil-cooler-heat-exchanger-shell-and-tube-manufacturer-supplier-india.php

Maximizing Corrosion Resistance with ASTM A213 Stainless Steel 317/317L Heat Exchanger Tubes

Introduction :

Metinox Overseas is one of the leading manufacturers, suppliers, stockists, and exporters of Stainless Steel 317/317L Heat Exchanger Tubes, offering a qualitative range designed in adherence to both national and international standards. Our commitment lies in providing top-notch products crafted from superior quality raw materials, ensuring resistance to corrosion and an extended service life.

Product Overview :

Our Stainless Steel 317L Heat Exchanger Tubes find frequent applications in various industries, notably in the cooling systems of hydraulic fluid and oil within engines, transmissions, and hydraulic power packs. Metinox Overseas prioritizes the utilization of high-grade raw materials to ensure optimal performance and longevity of SS 317L Seamless Heat Exchanger Tubes.

317/317L Stainless Steel Heat Exchanger Tubes Standard Specifications :

Specifications:ASTM A249 / ASME SA 249

Size Range:10 mm OD to 50.8 mm OD

Outer Diameter:6.00 mm to 101.60 mm

Wall Thickness:0.70 mm to 8.00 mm

Length:up to 20 m (65.62 ft) Length & Customed Required Length

Form:Seamless, Welded, Round, U Bent Tube, Shell and Tube

Ends:Plain End, Beveled End, Treaded

Processing Service:Bending, Welding, Decoiling, Punching, Cutting, Moulding

Technique:Cold drawn, Cold rolled, Hot rolled, Extrusion Tube manufacturer in India

Applications Of Stainless Steel 317/317L Heat Exchanger Tubes:

1. Chemical and Petrochemical Industries:

o Used in processing units, especially where acids like sulfuric acid or hydrochloric acid are present.

o Ideal for heat exchangers and condensers exposed to aggressive chemicals.

2. Power Plants:

o Found in boiler tubes, superheaters, and reheaters due to their ability to withstand high pressure and temperature.

3. Pharmaceutical Industry:

o Used in systems requiring hygienic and corrosion-resistant tubes, such as clean steam production.

4. Food Processing Equipment:

o Suitable for heat exchangers in food-grade environments due to their non-reactive surface and corrosion resistance.

5. Marine Applications:

o Used in heat exchangers exposed to seawater due to their excellent resistance to pitting and crevice corrosion.

6. Pulp and Paper Industry:

o Effective in equipment exposed to bleaching agents and acidic conditions.

Conclusion:

Stainless Steel 317/317L Heat Exchanger Tubes are highly valued for their exceptional corrosion resistance, durability, and ability to handle extreme conditions.

Plate-End-Frame Heat Exchangers: A Marvel of Efficiency and Sustainability

Heat exchangers are very important components for numerous sectors, negligible functioning behind the scenes to transfer thermal power between two liquids, whether it is for cooling, heating, or heat recovery aims. 

Among the many kinds of heat exchangers, one that has attained substantial popularity because of its effectiveness and environment-friendliness is the plate-end-frame heat exchanger. 

The plate-and-frame heat exchanger market will reach USD 8,912.9 million by 2030. 

The Basics of Plate-End-Frame Heat Exchangers

Visualize 2 plates squeezing in a heat-conductive material, making a small and effective instrument to transmit heat. This is the core of a plate-end-frame heat exchanger. The machine contains alternating plates, generally created by stainless steel or other strong resources, combined with seals, making a liquid flow channel between them. The end frames are utilized to aid and enfold the plates steadily.

Productivity at Its Best

The main benefit of a plate-end-frame heat exchanger lies in its extremely effective design. The huge surface area of the plates permits an augmented heat transmission rate among the fluids, fortifying it to be extremely effective in several heat exchange applications. If compared to old-style shell-and-tube heat exchangers, plate-end-frame heat exchangers needs less area and material, providing a more lucrative and ecologically friendly solution.

Adaptability and Flexibility

One of the major reasons plate-end-frame heat exchangers have attained extensive appreciation is their adaptability. Such heat exchangers can manage an extensive variety of fluids, such as gases and liquids, making them appropriate for many applications. Whether it is boiling water in residential boilers, cooling chemicals in manufacturing procedures, or improving heat in power plants, plate-end-frame heat exchangers are best suited.

Reduced Ecological Impact

These days, ecological sustainability is an emerging concern. Fortunately, plate-end-frame heat exchangers work flawlessly with such principles. By easing effective heat transfer, such heat exchangers contribute to lesser power usage, decreasing GHG releases and total ecological impact. Their small design and utilization of recyclable materials also reduce waste production, making them an ecological option for heat exchange requirements.

Their compact design and easy maintenance have been driving the demand for them in the chemicals & petrochemicals sector. In addition, the rising global demand for electricity, accelerating industrialization, and burgeoning investments in renewable energy generation in key economies, such as the U.S., Canada, Mexico, Brazil, European countries, India, China, Australia, and New Zealand, are set to boost product sales.

Types of plate heat exchangers

Gasketed plate heat exchangers utilize high-quality gaskets and are made to seal plates together and safeguard against leaks. Plates can effortlessly be detached for cleaning, expansion, or replacing drives, radically decreasing maintenance costs.

Brazed Plate heat exchangers are utilized in several refrigeration and industrial applications. Because of the stainless-steel plate arrangement with copper brazing, they are extremely resilient to corrosion. Brazed Plate heat exchangers are effective and compact, making them a perfect economic choice.

Hence, plate-end-frame heat exchangers have established themselves as extraordinary manufacturing marvels, offering effective and supportable solutions for heat transfer requirements across industries. 

Source: P&S Intelligence

Factors to Consider While Choosing the Right Heat Exchanger

Choosing the right heat exchanger is vital for ensuring efficient thermal energy transfer in industrial processes. As a prominent heat exchanger manufacturer and supplier in India, SCES Shrao Engineering understands the intricacies involved in this decision-making process. Here are key factors to consider when selecting the ideal heat exchanger for your needs:

Type of Heat Exchanger

Different applications require different types of heat exchangers. The most common types include shell and tube,plate, and air-cooled heat exchangers. Each type has its unique advantages, and understanding these can help you make an informed choice. For instance, shell and tube exchangers are typically used in oil and gas applications due to their robustness, while plate heat exchangers offer higher efficiency in compact spaces.

Material Compatibility

Material selection is crucial, as the heat exchanger must withstand the fluids it will be exposed to. Corrosion resistance, temperature, and pressure handling capabilities should guide your material choices. SCES Shrao Engineering offers heat exchangers made from high-quality materials that ensure durability and longevity, minimizing maintenance costs.

Temperature and Pressure Ratings

Heat exchangers must be rated for the operating temperatures and pressures they will encounter. Overloading a heat exchanger can lead to inefficiencies and failure. SCES Shrao Engineering provides products engineered to perform effectively under varying conditions, ensuring reliability in demanding environments.

Size and Capacity

Correct sizing of the heat exchanger is essential for optimal performance. Too small a unit may lead to overheating, while an oversized unit can be inefficient and cost-prohibitive. SCES Shrao Engineering works with clients to determine the appropriate sizing based on precise thermal load calculations.

Energy Efficiency

Energy consumption is a significant factor in operational costs. Selecting an energy-efficient heat exchanger can result in substantial savings. SCES Shrao Engineering specializes in designing heat exchangers that enhance energy transfer while reducing environmental impact, aligning with sustainable practices.

Maintenance Requirements

Regular maintenance is necessary to ensure the longevity of heat exchangers. Look for models that are easy to maintain and clean. SCES Shrao Engineering also offers refurbishment services for plate heat exchangers, allowing you to extend the life of your equipment while maintaining efficiency.

Selecting the right heat exchanger involves a careful analysis of various factors, including type, material, size, and efficiency. As a trusted heat exchanger supplier in India, SCES Shrao Engineering is committed to providing high-quality solutions tailored to your specific requirements. For further insights into our offerings, visit our website here.

Source: https://www.sces.shraoengg.com/factors-to-consider-while-choosing-the-right-heat-exchanger/

Swastik Hydraulic is one of the leading manufacturers of hydraulic oil coolers, Heat exchangers, shell and tube heat exchangers, lube oil coolers, water cooled condensers, and water cooled oil coolers in Delhi, India.

Swastik Hydraulic - Best Heat Exchanger Manufacturers in Delhi

Heat Exchanger Market: Growth Trends, Innovations, and Future Outlook

1. Overview of the Global Heat Exchanger Market

Market Size and Growth Forecast: The Heat Exchanger Market is projected to be valued at USD 18.08 billion in 2024, with an expected growth to USD 28.26 billion by 2029, reflecting a robust compound annual growth rate (CAGR) of 9.34% over the forecast period (2024-2029). The rising energy demand and the need for energy-efficient systems are major factors driving this growth.

Key Types of Heat Exchangers: The market is categorized into several key types of heat exchangers, including shell and tube, plate and frame, air-cooled, double pipe, and others, each serving different industrial needs based on efficiency, cost, and operational requirements.

2. Key Market Drivers in the Heat Exchanger Industry

Energy Efficiency and Sustainability: Increasing emphasis on energy efficiency and sustainability, particularly in the HVAC, power generation, and petrochemical sectors, is driving the demand for advanced heat exchanger systems that reduce energy consumption and enhance operational efficiency.

Industrial Expansion: The growing industrialization in emerging economies such as India, China, and Brazil is fueling the demand for heat exchangers across sectors like oil & gas, power generation, and chemical processing. These industries rely heavily on heat exchangers to maintain optimal thermal performance and reduce operational costs.

Regulatory Pressures: Stringent environmental regulations are pushing industries to adopt heat exchangers that minimize emissions and waste heat. This has accelerated the development of green technologies and high-performance heat exchangers.

Technological Advancements: The advent of new materials, designs, and manufacturing technologies, such as additive manufacturing and corrosion-resistant alloys, is creating opportunities for more durable and efficient heat exchangers. These advancements help reduce maintenance costs and improve longevity, making them attractive to industries with high operational demands.

3. Emerging Trends in the Heat Exchanger Market

Compact Heat Exchangers: There is a growing demand for compact and modular heat exchangers, particularly in industries like automotive and HVAC. These exchangers offer higher efficiency in smaller spaces, making them ideal for applications where space is a constraint.

Integration of Advanced Materials: The use of corrosion-resistant materials such as titanium, stainless steel, and nickel alloys is increasing, particularly in industries dealing with harsh environments like offshore oil & gas and chemical processing. These materials enhance heat exchanger performance and durability.

Renewable Energy Integration: The integration of heat exchangers in renewable energy systems, such as solar power plants and geothermal energy, is a growing trend. Heat exchangers are essential in converting thermal energy from renewable sources into usable electricity, helping the world transition toward cleaner energy.

Smart Heat Exchangers: With the rise of Industry 4.0, there is an increasing focus on smart heat exchangers equipped with IoT and AI-based predictive maintenance systems. These technologies allow for real-time monitoring of exchanger performance, reducing the likelihood of failures and optimizing energy efficiency.

4. Industry-Specific Applications of Heat Exchangers

Power Generation: Heat exchangers are vital in thermal power plants, nuclear power plants, and renewable energy systems. The growing demand for energy globally is pushing for more efficient thermal management solutions in power generation.

Chemical Processing: In the chemical and petrochemical industries, heat exchangers play a key role in controlling temperatures during chemical reactions and maintaining the safety and efficiency of processes.

Oil & Gas: The oil & gas industry uses heat exchangers in various processes, such as liquefied natural gas (LNG) production, refining, and transportation. As oil companies aim to reduce operational costs and environmental impact, there is a growing need for energy-efficient heat exchangers.

HVAC & Refrigeration: The heating, ventilation, and air conditioning (HVAC) sector relies on heat exchangers to regulate indoor temperatures efficiently. The growing demand for energy-efficient buildings and sustainable solutions is driving innovation in this segment.

Automotive: The automotive industry is increasingly relying on lightweight, high-performance heat exchangers to manage engine temperatures, cool electric vehicle batteries, and improve fuel efficiency.

5. Regional Market Analysis

North America: The North American heat exchanger market is driven by rising energy demands and environmental regulations. The region is also a hub for technological innovation, with a strong focus on developing next-generation heat exchanger designs.

Europe: Europe is seeing a surge in demand for heat exchangers due to its focus on energy efficiency and renewable energy adoption. Countries like Germany, the UK, and France are at the forefront of integrating advanced heat exchanger technologies into their energy and manufacturing sectors.

Asia-Pacific: The Asia-Pacific region is expected to witness the highest growth in the heat exchanger market, driven by rapid industrialization, urbanization, and the increasing need for energy-efficient solutions in countries like China, India, and Japan.

Middle East & Africa: In the Middle East, the demand for heat exchangers is growing, particularly in the oil & gas and chemical sectors, due to ongoing investments in large-scale industrial projects. Similarly, Africa is seeing growth in the energy and mining sectors, spurring demand for efficient heat exchangers.

6. Challenges Facing the Heat Exchanger Industry

High Initial Costs: The initial costs of designing and installing advanced heat exchangers can be high, which can be a barrier for small and medium-sized enterprises (SMEs). However, long-term energy savings and operational efficiency often justify these investments.

Material Challenges: Despite advancements, the challenge of finding cost-effective materials that can withstand extreme temperatures and corrosive environments remains. Continuous R&D is needed to overcome this.

Maintenance and Downtime: Heat exchangers require regular maintenance to prevent fouling and scaling, which can reduce their efficiency. Innovations in self-cleaning or fouling-resistant designs are helping address these issues, but maintenance costs can still be significant for some industries.

7. Competitive Landscape

Key Players: The global heat exchanger market is highly competitive, with major players such as Alfa Laval, Danfoss, SPX Flow, Kelvion, Hisaka Works, and Xylem leading the industry. These companies are focusing on expanding their product portfolios, enhancing energy efficiency, and incorporating smart technologies to remain competitive.

Mergers & Acquisitions: Many leading players are engaging in strategic mergers and acquisitions to strengthen their market positions and expand their presence in emerging markets.

Innovation in Design: The heat exchanger industry is witnessing innovations in design, such as compact, plate-type heat exchangers and modular designs that offer higher efficiency, easier installation, and reduced maintenance requirements.

8. Future Outlook and Opportunities

Growing Demand for Green Technologies: As industries strive to reduce their carbon footprints, the demand for green technologies such as waste heat recovery systems and energy-efficient exchangers is expected to rise.

Expansion in Emerging Markets: Emerging economies in Asia-Pacific, Latin America, and Africa offer significant growth opportunities for the heat exchanger market, especially in sectors like power generation, HVAC, and industrial processing.

Focus on Innovation: Continuous R&D into new materials, compact designs, and smart technologies is expected to drive future growth, helping industries meet rising energy efficiency standards and environmental regulations.

Conclusion: The Heat Exchanger Market on the Rise

The heat exchanger market is at a critical juncture of growth, fueled by advancements in technology, the push for energy efficiency, and the need for better thermal management across industries. As the world increasingly focuses on sustainability and energy conservation, heat exchangers will continue to play a vital role in meeting industrial and environmental demands.

For a detailed overview and more insights, you can refer to the full market research report by Mordor Intelligence.

Heat Exchanger | Shell & Tube Heat Exchanger | Oil Cooler Heat Exchanger Manufacturer, Supplier, Exporter India

We are leading Shell and Tube Type Heat Exchangers, Oil Cooler Heat Exchangers manufacturer, Supplier, exporter India. Heat Exchangers are used in variety of industries like Oil and Gas Industries, Chemical Industries, Power Industries, Marine Applications, Defense Industry for desired applications.

Phoenix Industries at a Glance

Phoenix Industries is an ISO 9001:2015 certified company that has been designing and manufacturing shell and tube type heat exchangers, Sealant Injection Grease Fittings, High Pressure Instrumentation Valves, Heat Exchangers, Precision Machined Components and Sub-assemblies for Oil and Gas Industries, Chemical Industries, Power Industries, & Marine Applications, Foundries for the last 22+ years.

Our founder Mr. Sachin Kulkarni is an epitome of experience and motivates his robust team to perform above expectations. The company is being managed by promoters who have the required technical and financial expertise and they work in synchronization with a dedicated team of engineers and technocrats to excel in everything they do.

We believe in ‘KAIZEN’ a Japanese principle of quality management which enables us for continuous improvement of our products and services, and hence maintaining ‘TOTAL QUALITY MANAGEMENT (TQM)’. We assure you the ‘Best’ quality product with ‘excellent’ services using precision machines and latest technology at most competitive prices.

Our Core Ideology

Vision

To Form and Achieve Sustainable Growth Brand to Enrich life of our Stake Holders with 50 Cr Business Target

Mission

We manufacture precision machined bar turned components and assemblies for high pressure application industries which deals with all types of liquids and gases, critical machining applications & heat exchanger industries with the help of total involvement of our team, process management, highly technical expertise in development of new products , capability of machining and supply in varied materials Grades.

Core Values

· Humanity

· Professionalism

· Continual learning

· Loyalty

· Creativity

Why to choose Phoenix for Heat Exchangers?

· Compact design to save space which makes installation easier.

· Premium quality components used in manufacturing.

· In house design facility equipped with latest software.

· Dedicated welding facilities with certifications to establish manufacturing process for any new material.

· Expert team to provide accurate thermal calculations.

Product Features:

· Flexibility of heat exchanger to be designed according to customer requirements, drawings and technical requirements.

· Flexibility in manufacturing and material requirement with various configurations.

· In house design facility equipped with required software and thermal design requirements.

· Strictly adherence to Standards established for Shell and Tube Heat Exchangers.

· Provision for Sacrificial Zinc Anode for Rust Susceptible configurations to prevent decay and corrosion for cost saving configurations.

· Interchangeability of available components.

Technical specifications of our Heat Exchanger:

· Design Code: TEMA, ASME SEC VIII, BS-5500, HEI, API

· Type: Fixed Tubes

· Shell diameter: 60 mm to 200 mm

· Tube length: 152 mm to 750 mm

· Tubes: Plain

· M.O.C. Tube: Carbon Steel, Stainless Steel, Copper, Adm. Brass, Aluminum, Bronze, Duplex, Cupro-Nickle, Titanium

· Shell: Carbon Steel, Stainless Steel, Copper, Brass, Aluminum,