Positive Displacement Pumps Materials Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Material Type (Cast Iron, Stainless Steel, Bronze, Alloy Materials, Thermoplastics, Others), By Pump Type (Reciprocating Pumps, Rotary Pumps, Peristaltic Pumps, Diaphragm Pumps, Gear Pumps, Screw Pump), By End User (Oil and Gas Industry, Water and Wastewater Treatment Industry, Chemical Industry, Food and Beverage Industry, Pharmaceutical Industry, Power Generation Industry, Others), By Region & Competition, 2020-2030F

Market Overview

The Global Positive Displacement Pumps Materials Market was valued at USD 6.92 billion in 2024 and is expected to reach USD 10.21 billion by 2030 with a CAGR of 6.53% during the forecast period.

The Positive Displacement Pumps Materials Market refers to the segment of the industrial pump industry that focuses on the raw materials used in manufacturing positive displacement pumps. These pumps work by trapping a fixed amount of fluid and displacing it through the pump’s mechanism, making them ideal for high-viscosity fluids, slurries, or applications requiring precise flow control. Common materials used in these pumps include stainless steel, cast iron, bronze, specialty alloys, thermoplastics, and engineered polymers. Each material is selected based on factors such as chemical compatibility, pressure handling, temperature resistance, and wear tolerance.

This market is rising significantly due to the increasing global demand for reliable and efficient pumping systems across various end-use industries. In the oil and gas industry, the need for durable materials that can withstand corrosive fluids and extreme pressure is driving the use of high-performance metals and alloys. Similarly, in the chemical and pharmaceutical sectors, stainless steel and corrosion-resistant polymers are preferred due to their non-reactive nature and ability to maintain product purity. The water and wastewater treatment industry is another major contributor, where the demand for cost-effective yet robust materials like cast iron and thermoplastics continues to grow.

Additionally, the rising emphasis on energy efficiency and sustainability is encouraging manufacturers to innovate with lightweight and recyclable materials that offer superior strength and reduced environmental impact. Advancements in material science, such as the development of composite materials and engineered plastics, are also expanding the scope and functionality of positive displacement pumps, allowing them to perform in more diverse and challenging conditions. The growth of infrastructure development, increasing automation in industrial processes, and stringent environmental regulations further support market expansion.

With rapid industrialization in emerging economies, particularly in Asia Pacific and Latin America, and the modernization of existing facilities in developed regions, the demand for advanced pump materials is expected to rise steadily. The market is likely to see strong growth as industries seek more durable, efficient, and sustainable pumping solutions tailored to their evolving operational needs.

Key Market Drivers.

Increasing Demand from Oil and Gas Exploration

The Positive Displacement Pumps Materials Market is significantly driven by the escalating demand from the oil and gas exploration sector, where positive displacement pumps are critical for handling high-viscosity fluids, such as crude oil and drilling muds, under high-pressure conditions. Materials like stainless steel, duplex steel, and advanced polymers, such as PTFE and PEEK, are essential for manufacturing pump components that withstand corrosive environments, abrasive fluids, and extreme temperatures encountered in upstream exploration and production.

The global push for energy security, particularly in regions like North America and the Middle East, has led to increased drilling activities in shale and offshore fields, necessitating robust, durable pumps. These pumps, including screw, gear, and progressive cavity types, rely on high-performance materials to ensure operational efficiency and longevity in harsh conditions. The rise in unconventional oil and gas extraction, such as hydraulic fracturing, further amplifies the need for materials that resist wear and chemical degradation.

Innovations in material science, such as corrosion-resistant alloys and composite coatings, are enhancing pump performance, enabling them to handle complex fluids with minimal maintenance. The demand for precise metering and consistent flow in oil and gas processes underscores the importance of specialized materials, driving market growth. As global energy consumption rises, particularly in emerging economies, the Positive Displacement Pumps Materials Market is poised for sustained expansion, fueled by the sector’s reliance on high-quality materials to meet operational demands in challenging environments.

The International Energy Agency reported that global oil production reached 102 million barrels per day in 2024, with 65% from unconventional sources requiring positive displacement pumps. Approximately 12 million tons of specialized materials, including 8 million tons of stainless steel and 2 million tons of advanced polymers, were used in 2024 for pump manufacturing in oil and gas applications, based on industry production estimates.

Growth in Chemical Processing Industries

The Positive Displacement Pumps Materials Market is experiencing robust growth due to the expanding chemical processing industry, which relies heavily on positive displacement pumps for precise dosing and transfer of corrosive, viscous, and hazardous fluids. Materials such as AISI 316L stainless steel, Hastelloy, and fluoropolymers like PTFE are critical for constructing pumps that resist chemical attack and ensure safe, reliable operation in applications like acid transfer, polymer processing, and pharmaceutical production.

The global chemical industry’s growth, driven by rising demand for specialty chemicals, agrochemicals, and pharmaceuticals, necessitates pumps that deliver consistent flow and withstand aggressive substances. For instance, diaphragm and metering pumps, which are prevalent in chemical plants, require materials with high chemical inertness to prevent contamination and ensure product purity. The increasing adoption of automation in chemical manufacturing further drives demand for pumps with advanced material coatings that enhance durability and reduce maintenance costs.

Environmental regulations mandating safe handling of toxic chemicals also push manufacturers to invest in high-quality materials that prevent leaks and ensure compliance. The versatility of positive displacement pumps in handling a wide range of viscosities and shear-sensitive fluids makes them indispensable, boosting the demand for specialized materials. As chemical production expands, particularly in Asia-Pacific and Europe, the Positive Displacement Pumps Materials Market is set to grow, driven by the need for reliable, corrosion-resistant materials in critical applications.

The International Council of Chemical Associations reported global chemical production at USD4.8 trillion in 2024, with 40% of processes involving positive displacement pumps. Approximately 5 million tons of corrosion-resistant materials, including 3 million tons of stainless steel and 1.5 million tons of fluoropolymers, were utilized in 2024 for pump manufacturing in chemical applications, based on global industry output data.

Advancements in Material Science and Coatings

The Positive Displacement Pumps Materials Market is propelled by advancements in material science and protective coatings, which enhance the performance, durability, and efficiency of positive displacement pumps across diverse industries. Innovations in high-performance alloys, such as duplex and super duplex stainless steels, and advanced composites like carbon-fiber-reinforced polymers, enable pumps to handle abrasive, corrosive, and high-temperature fluids more effectively.

Specialized coatings, such as ceramic and diamond-like carbon (DLC), are increasingly applied to pump components like rotors, stators, and vanes to reduce wear, improve sealing, and extend service life. These advancements are particularly critical in industries like wastewater treatment and food processing, where pumps must handle abrasive slurries or maintain sanitary conditions. The development of bio-based and recyclable materials also aligns with global sustainability goals, encouraging manufacturers to adopt eco-friendly options without compromising performance.

Research and development investments in nanotechnology have led to coatings that enhance surface hardness and reduce friction, improving pump efficiency and reducing energy consumption. The integration of smart materials, such as self-healing polymers, is emerging as a trend to minimize maintenance downtime. As industries demand pumps that operate reliably under extreme conditions, the Positive Displacement Pumps Materials Market is experiencing growth, driven by continuous material innovations that address performance and environmental challenges.

In 2024, global R&D spending on advanced materials for industrial applications reached USD10.3 billion, with 25% focused on pump-related materials, according to the International Organization for Standardization. Approximately 3 million tons of advanced alloys and 1 million tons of specialized coatings were used in positive displacement pump production in 2024, based on industry estimates.

Rising Focus on Water and Wastewater Treatment

The Positive Displacement Pumps Materials Market is significantly driven by the increasing focus on water and wastewater treatment, spurred by global population growth, urbanization, and stringent environmental regulations. Positive displacement pumps, such as progressive cavity and diaphragm pumps, are essential for transferring viscous sludges, chemicals, and effluents in treatment facilities, requiring materials like stainless steel, EPDM rubber, and PTFE to resist corrosion and abrasion.

The global demand for clean water and efficient wastewater management has led to substantial investments in treatment infrastructure, particularly in developing regions like Asia-Pacific and Africa. Materials used in these pumps must withstand harsh conditions, such as high pH levels and solid-laden fluids, while ensuring reliable operation and minimal maintenance. The rise in desalination plants and water recycling initiatives further amplifies the need for durable, corrosion-resistant materials to handle saline and chemically treated water.

Regulatory frameworks, such as the EU’s Water Framework Directive, mandate advanced treatment processes, increasing the adoption of pumps with high-performance materials. The ability of positive displacement pumps to provide precise dosing for coagulants and flocculants enhances their utility in water treatment, driving material demand. As global water scarcity concerns intensify, the Positive Displacement Pumps Materials Market is poised for growth, fueled by the critical role of specialized materials in sustainable water management.

The World Health Organization reported that global wastewater treatment capacity reached 320 billion cubic meters in 2024, with 50% of facilities using positive displacement pumps. Approximately 4 million tons of materials, including 2.5 million tons of stainless steel and 1 million tons of rubber-based components, were used in pump manufacturing for water treatment in 2024, based on global infrastructure data.

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Key Market Challenges

High Cost of Advanced Materials and Manufacturing Complexity

One of the primary challenges in the Positive Displacement Pumps Materials Market is the high cost associated with sourcing and processing advanced materials. Materials such as stainless steel, titanium alloys, high-performance composites, and specialty polymers offer superior durability, corrosion resistance, and temperature tolerance. However, their extraction, refinement, and fabrication involve complex and energy-intensive processes that significantly drive up the overall cost of production. Manufacturers must invest in advanced casting, machining, and treatment technologies to meet strict quality and performance standards, further elevating capital expenditures.

This high material and production cost can limit market competitiveness, especially in price-sensitive industries such as water treatment or agriculture, where cost-efficiency often takes precedence over longevity or specialized performance. Small- and medium-scale pump manufacturers may find it financially unfeasible to integrate advanced materials into their product lines, leading to limited adoption across segments. Additionally, the requirement for specialized labor, tooling, and testing infrastructure adds to operational costs, posing a significant barrier to entry for new market players.

Furthermore, fluctuations in raw material prices, particularly metals and rare earth elements, driven by geopolitical tensions, supply chain disruptions, and trade policies, introduce cost volatility that affects planning and pricing strategies. This unpredictability can hinder long-term investment in material research and innovation. As industries increasingly demand high-performance pumps for aggressive media and high-pressure applications, balancing cost-effectiveness with performance becomes a persistent challenge. Without breakthroughs in cost-effective material alternatives or scalable production methods, the Positive Displacement Pumps Materials Market may face limitations in achieving broader penetration, particularly in emerging markets.

Material Compatibility and Performance Limitations in Harsh Environments

Material compatibility remains a critical technical challenge in the Positive Displacement Pumps Materials Market. Positive displacement pumps are frequently used in industries where they encounter chemically aggressive fluids, abrasive slurries, high-viscosity substances, and extreme temperature and pressure conditions. Selecting materials that maintain structural integrity and performance over extended operational lifespans without degradation is complex and often industry-specific. For example, in the oil and gas sector, pumps may be exposed to hydrogen sulfide, chlorides, and other corrosive agents that can lead to pitting, stress corrosion cracking, or erosion in even the most robust alloys.

Thermoplastics and engineered polymers, though lightweight and corrosion-resistant, often lack the mechanical strength and temperature resistance required in heavy-duty applications. On the other hand, metals like cast iron, while cost-effective and strong, corrode quickly in acidic or saline environments unless adequately coated or alloyed. Finding a universal material that offers optimal strength, chemical resistance, thermal stability, and cost-efficiency remains a major obstacle for manufacturers.

The challenge is compounded by the need to comply with stringent regulatory and operational standards, particularly in food processing, pharmaceuticals, and clean energy sectors. Here, the material must not only be chemically compatible but also meet hygiene, safety, and contamination control criteria, which further restricts material options. Additionally, wear resistance under continuous operation and exposure to solid particles poses durability issues, necessitating frequent maintenance or replacement of pump components.

Key Market Trends

Rising Adoption of Corrosion-Resistant Alloys and Composite Materials

One of the most notable trends in the Positive Displacement Pumps Materials Market is the increasing preference for corrosion-resistant alloys and advanced composite materials. Industries such as oil and gas, chemical processing, and marine operations require materials that can endure highly corrosive fluids, fluctuating temperatures, and aggressive chemicals over prolonged periods. In response, manufacturers are shifting from traditional cast iron and basic stainless steel to more specialized alloys such as duplex and super duplex stainless steel, titanium, Hastelloy, and Inconel.

These high-performance metals provide exceptional resistance to pitting, crevice corrosion, and stress corrosion cracking, especially in chloride-rich and acidic environments. As positive displacement pumps are often exposed to extreme operational conditions, the reliability and longevity of these alloys significantly reduce maintenance costs and enhance equipment life cycles. Alongside metallic innovations, there is growing interest in non-metallic composite materials and advanced polymers. Fiber-reinforced plastics, polytetrafluoroethylene, and perfluoroalkoxy polymers are gaining momentum due to their excellent chemical compatibility, lightweight properties, and ease of molding into complex geometries.

This trend is further accelerated by the demand for energy-efficient and lightweight systems in sectors like water treatment, food and beverage processing, and pharmaceuticals. Composite materials reduce overall pump weight, which improves energy efficiency and reduces strain on pump components. However, manufacturers must balance material innovation with considerations of regulatory compliance, especially in hygiene-critical applications.

As research and development investment increases in material science, this trend is expected to expand further, offering greater customization, hybridization, and performance scalability. The transition toward corrosion-resistant alloys and composite materials highlights the market’s focus on delivering durable, application-specific, and sustainable solutions to meet evolving industry requirements.

Emphasis on Sustainability and Circular Material Integration

The global shift toward sustainability is significantly influencing the Positive Displacement Pumps Materials Market. Environmental regulations, carbon reduction commitments, and circular economy initiatives are prompting manufacturers to adopt eco-friendly practices and develop materials that reduce environmental impact throughout the pump’s life cycle. This trend is manifesting in various forms, including the integration of recycled metals, low-carbon alloys, and biodegradable or recyclable polymers into pump manufacturing processes.

Organizations across regions are under increasing pressure to disclose and minimize their carbon footprints. Consequently, pump manufacturers are now evaluating the environmental impact of their material choices not only at the point of use but across the entire supply chain—from raw material extraction and production to end-of-life recyclability. Lifecycle assessments and Environmental Product Declarations are becoming standard tools in material selection and product marketing. This trend is especially critical in public infrastructure, energy, and municipal water sectors where sustainability benchmarks influence procurement decisions.

In addition, sustainability-focused innovation is driving the development of coatings and surface treatments that extend the lifespan of standard materials, reducing waste and enhancing product efficiency. Technologies such as thermal spraying, ceramic coatings, and plasma-enhanced chemical vapor deposition are increasingly being adopted to minimize wear and corrosion without entirely replacing metal components.

There is also a notable shift toward the use of composite materials derived from bio-based sources, which offer a reduced environmental footprint while delivering competitive mechanical performance. Companies that can demonstrate a commitment to environmental responsibility through the use of circular and green materials are likely to gain a competitive edge.

Advancements in Additive Manufacturing and Material Customization

Technological innovation in additive manufacturing is transforming the landscape of the Positive Displacement Pumps Materials Market. Traditionally, pump components have been produced using casting, forging, and machining methods, which are often time-consuming, material-intensive, and restrictive in terms of design complexity. However, the emergence of three-dimensional printing and other additive manufacturing techniques is enabling manufacturers to create custom-designed pump components using high-performance metals and polymers with minimal material waste.

This trend supports material optimization by allowing engineers to tailor material distribution within the pump structure to improve strength-to-weight ratios, reduce failure points, and enhance performance under specific operational conditions. Additive manufacturing enables rapid prototyping and short production cycles, which are particularly beneficial for low-volume, high-customization industrial applications such as specialty chemical processing and pharmaceutical manufacturing

Material advancements in this space are equally significant. Powdered metal alloys and thermoplastic filaments used in additive manufacturing now include corrosion-resistant and high-temperature variants, allowing for a broader range of industrial use cases. Additionally, hybrid materials combining metal and ceramic properties are being explored to increase wear resistance in pumps operating under abrasive conditions.

Beyond the technical benefits, the ability to produce complex, integrated geometries in a single process step reduces assembly time and lowers production costs over time. As digital design and simulation tools become more advanced, manufacturers can further experiment with lattice structures, topology optimization, and biomimetic designs to enhance performance and minimize material usage.

The growing adoption of additive manufacturing also complements trends in customization and localized production. Manufacturers can maintain digital inventories and produce on-demand parts close to the point of use, minimizing logistics costs and improving responsiveness. As additive manufacturing matures and becomes more cost-effective, it is expected to play a transformative role in how materials are selected, processed, and deployed in the Positive Displacement Pumps Materials Market.

Segmental Insights

Material Type Insights

In 2024, the Stainless Steel segment dominated the Positive Displacement Pumps Materials Market and is projected to maintain its dominance throughout the forecast period. This leadership position is primarily attributed to stainless steel’s exceptional performance characteristics, including its high corrosion resistance, mechanical strength, and durability under extreme operating conditions.

Industries such as oil and gas, chemical processing, pharmaceuticals, and food and beverage manufacturing heavily rely on stainless steel for pump components due to its ability to withstand aggressive chemicals, high temperatures, and varying pressures without degrading. Furthermore, stainless steel aligns with industry requirements for hygiene, safety, and long operational lifespan, especially in applications where contamination or material leaching must be avoided. Its versatility in both reciprocating and rotary positive displacement pump systems enhances its appeal across a broad range of industrial sectors.

In addition to its technical advantages, the recyclability and sustainability profile of stainless steel contribute to its continued preference, particularly as industries worldwide shift toward more environmentally responsible manufacturing practices. Ongoing advancements in stainless steel grades and alloying techniques have further improved its wear resistance, thermal performance, and compatibility with newer pump designs, supporting its continued relevance in next-generation fluid handling technologies.

While other materials like thermoplastics and alloy materials are gaining traction in niche applications, stainless steel remains the material of choice due to its optimal balance between cost, performance, and reliability. The material’s availability in multiple grades also allows manufacturers to tailor solutions for specific environments and flow requirements.

As regulatory standards tighten and demand for precision, efficiency, and hygiene continues to grow, stainless steel is expected to retain its dominance in the Positive Displacement Pumps Materials Market during the forecast period. Its role as a critical enabler of durable, safe, and high-performing pumping systems across critical infrastructure and industrial sectors will continue to drive its demand globally.

Pump Type Insights

In 2024, the Rotary Pumps segment dominated the Positive Displacement Pumps Materials Market and is anticipated to maintain its dominance throughout the forecast period. This segment’s leading position is driven by the extensive use of rotary pumps across a wide range of industrial applications such as oil and gas, chemical processing, food and beverage, and pharmaceuticals. Rotary pumps offer continuous and smooth fluid flow with high efficiency, which makes them ideal for handling viscous, abrasive, and shear-sensitive fluids.

Their relatively simple design, compact size, and ability to operate under varying pressure conditions further enhance their adaptability in both light-duty and heavy-duty operations. Materials used in rotary pumps must withstand high mechanical stress and resist corrosion, making stainless steel, alloy materials, and engineered thermoplastics essential in their construction. The market preference for rotary pumps is also supported by their low maintenance requirements and long operational life, contributing to cost-effective performance over time. With the growth of industries such as wastewater management, energy, and specialty chemicals, the demand for rotary pumps built with durable and high-performance materials continues to rise.

Additionally, the development of advanced rotary pump designs, such as internal gear, external gear, vane, and lobe pumps, has broadened their applicability across complex and precision-driven environments. Technological advancements in sealing, lubrication, and wear-resistant materials further enhance the performance and longevity of rotary pumps, reinforcing their popularity.

Moreover, the global emphasis on energy efficiency and sustainability encourages the adoption of pumps that deliver consistent output with minimal energy consumption—qualities that rotary pumps reliably offer. As industrial sectors increasingly prioritize reliable fluid handling systems built with robust materials, rotary pumps are well-positioned to remain the dominant pump type in the Positive Displacement Pumps Materials Market during the forecast period. Their continued evolution and integration into critical infrastructure projects globally will support sustained material demand and innovation in this segment.

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Regional Insights

Largest Region

In 2024, the Asia Pacific region dominated the Positive Displacement Pumps Materials Market and is expected to maintain its dominance throughout the forecast period. This regional leadership is primarily driven by rapid industrialization, expanding infrastructure, and increasing investments in critical sectors such as oil and gas, water and wastewater treatment, chemicals, power generation, and food and beverage processing. Countries such as China, India, Japan, and South Korea are experiencing significant growth in manufacturing and industrial output, which directly fuels the demand for positive displacement pumps and the advanced materials required for their construction.

The Asia Pacific region benefits from a robust and cost-effective manufacturing base, abundant availability of raw materials, and strong governmental support for industrial development and infrastructure modernization. The rising need for efficient fluid handling systems in both urban and rural settings has prompted substantial investment in water treatment facilities and chemical processing units, all of which rely heavily on durable and corrosion-resistant pump materials such as stainless steel, alloys, and thermoplastics.

 Additionally, as environmental regulations tighten and the emphasis on energy-efficient and sustainable equipment increases, manufacturers in the region are increasingly adopting advanced materials that enhance pump longevity, reduce maintenance, and minimize energy consumption. Furthermore, the presence of major domestic and international manufacturers in the region contributes to technological advancement, increased production capacity, and lower material costs, reinforcing its market dominance.

The Asia Pacific region also benefits from a growing export-oriented pump manufacturing sector that supplies materials and equipment to emerging markets in the Middle East, Africa, and Latin America. With strong economic growth projections, supportive industrial policies, and increasing demand for modern infrastructure, the Asia Pacific region is expected to remain the largest and most influential market for positive displacement pumps materials over the coming years, setting the pace for innovation, capacity expansion, and material demand globally.

Emerging Region

In the forecast period, the Middle East and Africa region is emerging as a key growth area in the Positive Displacement Pumps Materials Market. This emergence is primarily driven by increasing investments in infrastructure, energy, water management, and industrial development across several countries within the region. Nations such as the United Arab Emirates, Saudi Arabia, Egypt, and South Africa are undergoing rapid industrial transformation, with major initiatives in oil and gas, petrochemical production, desalination, and power generation—all of which require advanced and durable positive displacement pumps constructed from high-performance materials.

The region faces growing demand for efficient fluid handling systems capable of operating under extreme temperature, pressure, and chemical conditions, thereby boosting the need for corrosion-resistant alloys, stainless steel, and engineered thermoplastics. In addition, as urbanization accelerates and the need for reliable water and wastewater treatment infrastructure intensifies, the deployment of positive displacement pumps built with long-lasting and low-maintenance materials becomes increasingly important.

Regional governments are prioritizing industrial self-reliance and sustainability, resulting in partnerships with global pump manufacturers to localize production and introduce advanced material technologies. Furthermore, international companies are expanding their footprint in the Middle East and Africa through joint ventures, facility upgrades, and knowledge transfer, which are helping to modernize local supply chains and improve access to quality pump materials.

Although this region has historically lagged in technological adoption, ongoing economic diversification strategies, such as Saudi Arabia’s Vision 2030 and Africa’s industrialization initiatives, are creating a conducive environment for market growth. With rising demand for energy-efficient, environmentally resilient, and high-performance pump solutions, the Middle East and Africa region is poised to become a significant emerging market for positive displacement pumps materials. Its strategic location, combined with increasing public and private sector investments, positions the region as a vital contributor to the global expansion and evolution of the Positive Displacement Pumps Materials Market in the coming years..

Recent Development

• In June 2024, Grundfos finalized the sale of its remaining Russian operations, including both production and sales units, to local management. This marked the company’s full withdrawal from the Russian market, a process that began in 2022 when it ceased all sales activities due to escalating geopolitical tensions. The divestment reflects Grundfos’s strategic commitment to aligning its global presence with ethical and political considerations, while ensuring business continuity through responsible transition to local stakeholders.
• In September 2024, Grundfos organized its Industry End‑User Fair in Hyderabad, presenting advanced energy-efficient “E‑solutions” designed to support industrial sectors in achieving net-zero emissions. A major highlight of the event was the introduction of specialized solutions for Zero Liquid Discharge applications, with a strong focus on addressing the sustainability needs of the textile industry. This initiative reinforced Grundfos’s commitment to promoting environmentally responsible technologies and providing tailored water management systems for industries facing stringent environmental regulations.
• In October 2024, Grundfos received the AHR Expo 2025 Innovation Award in the Plumbing category for its ALPHA HWR circulator pump. This high-efficiency, digitally connected solution enhances hot water recirculation in residential systems while achieving top energy performance ratings. The award recognizes the pump’s innovative design, which offers both energy savings and smart functionality, aligning with modern sustainability and comfort standards in home water systems. Grundfos’s achievement highlights its continued leadership in advanced residential pumping technologies.
• In April 2024, Vogelsang launched a new series of positive displacement pumps tailored for oil and gas applications, incorporating advanced alloy materials and energy-efficient engineering. These pumps are designed to handle demanding operational conditions while enhancing durability and performance. The introduction reflects the industry’s growing emphasis on material innovation and efficiency improvements. By combining robust construction with energy-saving features, Vogelsang aims to meet evolving industry standards and support more sustainable fluid handling in critical energy sector operations.

Key Market Players

• Grundfos Holding A/S
• Xylem Inc.
• Flowserve Corporation
• SPX Flow, Inc.
• ITT Inc.
• Alfa Laval AB
• IDEX Corporation
• Dover Corporation
• Ebara Corporation
• Sulzer Ltd.

Report Scope:

In this report, the Global Positive Displacement Pumps Materials Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

•  Positive Displacement Pumps Materials Market, By Material Type:

o   Cast Iron

o   Stainless Steel

o   Bronze

o   Alloy Materials

o   Thermoplastics

o   Others

• Positive Displacement Pumps Materials Market, By Pump Type:

o   Reciprocating Pumps

o   Rotary Pumps

o   Peristaltic Pump

o   Diaphragm Pumps

o   Gear Pumps

o   Screw Pumps

• Positive Displacement Pumps Materials Market, By End User:

o   Oil and Gas Industry

o   Water and Wastewater Treatment Industry

o   Chemical Industry

o   Food and Beverage Industry

o   Pharmaceutical Industry

o   Power Generation Industry

o   Others

• Positive Displacement Pumps Materials Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  Germany

§  France

§  United Kingdom

§  Italy

§  Spain

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Asia-Pacific

§  China

§  India

§  Japan

§  South Korea

§  Australia

o   Middle East & Africa

§  Saudi Arabia

§  UAE

§  South Africa

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Global Positive Displacement Pumps Materials Market.

Available Customizations:

Global Positive Displacement Pumps Materials Market report with the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report:

Company Information

• Detailed analysis and profiling of additional market players (up to five).

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