Pipe Jacking Machine Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented, By Type (Soft Rock Pipe Jacking Machine, Slurry Balance Pipe Jacking Machine, Others), By Application (New Sewerage & Drainage Construction, Gas & Water Mains, Oil Pipelines, Road Underpasses, Bridge Abutments), By Region, By Competition, 2020-2030F

Market Overview

The Pipe Jacking Machine Market was valued at USD 10.31 Billion in 2024 and is expected to reach USD 14.56 Billion by 2030 with a CAGR of 5.76%. The pipe jacking machine market refers to the global industry surrounding the design, manufacturing, sales, and deployment of advanced machinery used for trenchless underground pipeline installation. Pipe jacking machines are specialized equipment that enable the precise, efficient, and environmentally friendly placement of pipelines without the need for extensive surface excavation, making them critical for modern infrastructure development in urban and environmentally sensitive areas.

This market encompasses a wide range of machine types and supporting technologies designed to install pipelines for water supply, sewage, drainage, oil and gas, telecommunications, and utility networks. Unlike traditional open-cut methods, pipe jacking technology allows for the installation of pipelines beneath highways, railways, rivers, and densely populated urban areas with minimal surface disruption, reduced environmental impact, and lower long-term costs. The market integrates a diverse ecosystem of stakeholders including machine manufacturers, construction companies, engineering firms, component suppliers, and service providers, all working together to advance trenchless technology solutions.

Driven by rapid urbanization, rising investment in underground utility networks, and the increasing demand for sustainable construction methods, the pipe jacking machine market is expanding significantly. The machines themselves incorporate cutting-edge technologies such as advanced guidance systems, laser alignment, high-powered hydraulic jacks, and automation features that improve accuracy, safety, and productivity in underground construction projects. Key end users include municipal authorities, utility operators, and private construction firms, with growing applications across water and wastewater management, oil and gas pipelines, electricity and telecom conduits, and stormwater drainage systems.

Key Market Drivers

Rising Demand for Underground Infrastructure Development

The increasing demand for underground infrastructure development is a major driver for the growth of the pipe jacking machine market, as governments, municipalities, and private developers are actively seeking efficient solutions to address urbanization, population growth, and expanding industrial activity.

With cities becoming more congested and land availability on the surface shrinking, there is a pressing need to move essential utilities and transport systems underground to maximize space utilization and improve overall urban planning. Pipe jacking machines play a critical role in the construction of underground pipelines, sewers, subways, and utility tunnels, enabling projects to be executed with minimal disruption to surface activities such as traffic, businesses, and residential communities.

This non-disruptive construction method is particularly important in densely populated urban centers where traditional open-cut trenching methods are impractical or too costly due to the relocation of existing utilities, environmental restoration, and surface infrastructure repair. Moreover, the rising emphasis on smart cities and sustainable infrastructure is further accelerating the deployment of underground networks for water supply, wastewater management, telecommunications, and power distribution, as these systems need to be reliable, durable, and environmentally compliant.

Pipe jacking machines provide the necessary precision and efficiency to handle varying soil conditions, large-diameter tunneling, and long-distance underground installations, making them indispensable in modern infrastructure projects. Additionally, the increasing investments in metro rail networks, cross-city sewer systems, underground power cabling, and district cooling systems are creating sustained demand for advanced tunneling technologies. Governments are also prioritizing eco-friendly construction techniques, and pipe jacking offers an environmentally favorable approach by reducing carbon emissions, land excavation, and material wastage. Over 60% of global urban populations are expected to live in megacities by 2030, boosting underground infrastructure needs. Around 70% of new metro and subway projects worldwide involve underground construction to optimize space and reduce congestion. Nearly 40 million kilometers of underground utilities (pipelines, cables, tunnels) are projected to be laid globally by 2035. By 2030, underground transportation networks are estimated to support more than 500 million daily commuters across major global cities. Over 50% of global smart city projects include underground infrastructure for utilities, mobility, and resilient energy systems.

Increasing Focus on Minimizing Environmental and Social Disruption

Another significant driver shaping the pipe jacking machine market is the growing emphasis on minimizing environmental and social disruption during construction activities, as communities and regulatory authorities are increasingly resistant to large-scale surface excavation and its associated inconveniences. Traditional trenching methods for pipeline and tunnel construction often require massive land clearance, rerouting of traffic, demolition of existing structures, and extensive environmental restoration, all of which result in higher costs, longer project timelines, and strong opposition from local stakeholders.

In contrast, pipe jacking machines enable trenchless construction, allowing the installation of underground pipelines and tunnels without major surface disturbances, which is especially critical in urban centers, environmentally sensitive zones, and areas with established infrastructure. This low-impact construction approach reduces noise, dust, and vibrations, which are common concerns for residents and businesses located near project sites, thereby improving social acceptance of infrastructure development. Environmental sustainability is also a key consideration, with governments and companies aligning projects with green building and climate-resilient construction goals.

Pipe jacking minimizes soil excavation, reduces material waste, and limits carbon emissions associated with construction, aligning with global sustainability commitments and environmental regulations. Additionally, trenchless technology helps preserve ecosystems, landscapes, and cultural heritage sites by avoiding unnecessary excavation in sensitive areas such as forests, wetlands, and historical districts. The method also enhances worker safety by reducing the exposure of construction teams to open trenches, unstable soil, and high-traffic zones.

The growing recognition of these benefits has increased investments in trenchless construction technologies, with pipe jacking machines being central to enabling environmentally responsible urban development. Furthermore, the rising number of mega infrastructure projects across Asia-Pacific, Europe, and the Middle East are increasingly being designed to minimize environmental footprints, and project tenders often mandate the use of non-disruptive tunneling technologies as a key requirement.

These factors collectively underscore how the demand for sustainable, socially acceptable, and less intrusive construction practices is fueling the widespread adoption of pipe jacking machines, positioning them as a critical technology in modern underground construction markets. Over 70% of global energy projects now integrate environmental impact assessments to minimize ecological disruption. Around 60 million tons of CO₂ emissions could be reduced annually through adoption of low-impact hybrid and renewable power solutions. More than 45% of new infrastructure projects worldwide include social sustainability frameworks to address community concerns. Approximately 1.5 billion people globally live in regions where minimizing environmental disruption is a key policy priority. Nearly 50% of large-scale renewable energy projects are designed with biodiversity preservation measures. Over 65 countries have adopted stricter environmental regulations influencing hybrid and off-grid power development.

Technological Advancements and Automation in Tunneling Equipment

Technological advancements and the increasing integration of automation in tunneling equipment are also pivotal drivers of the pipe jacking machine market, as they significantly enhance efficiency, safety, and cost-effectiveness in underground construction. Traditional tunneling methods faced challenges such as labor-intensive processes, inconsistent accuracy, and high risks of delays due to unforeseen ground conditions, but recent innovations in pipe jacking machines are addressing these limitations through digitalization, robotics, and intelligent monitoring systems.

Modern machines are now equipped with automated guidance systems, laser alignment, and real-time data monitoring, enabling operators to achieve greater precision in pipeline installation and tunnel boring even in complex geological conditions. The incorporation of IoT-enabled sensors and predictive analytics further enhances operational performance by providing continuous updates on soil conditions, machine performance, and safety parameters, allowing teams to make timely adjustments and avoid costly errors.

Additionally, advancements in machine design, such as higher torque capacity, improved cutter heads, and modular assembly features, enable pipe jacking equipment to handle larger diameters, longer distances, and mixed ground environments with higher efficiency.

These innovations not only reduce project timelines but also lower overall construction costs, making trenchless technologies more accessible to a broader range of infrastructure projects. Automation also enhances worker safety by minimizing manual intervention in hazardous underground environments, thus reducing the risk of accidents and exposure to harmful conditions. Furthermore, the integration of artificial intelligence and machine learning into tunneling processes is expected to unlock new levels of operational optimization, including predictive maintenance and fully autonomous tunneling solutions.

The competitive landscape of the industry is also driving continuous R&D investments, with manufacturers striving to deliver machines that are more compact, energy-efficient, and adaptable to varying project requirements. As global infrastructure spending increases and projects become more complex, the demand for advanced, automated, and intelligent pipe jacking machines will continue to rise, positioning technological innovation as a key market driver that ensures long-term competitiveness and adoption across diverse sectors.

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Key Market Challenges

High Capital Investment and Operational Costs

The pipe jacking machine market faces a significant challenge in the form of high capital investment and operational costs, which continue to limit widespread adoption, particularly among small and medium-sized contractors. Pipe jacking technology, while highly effective for trenchless construction and underground infrastructure projects, requires substantial upfront investment in specialized machinery, auxiliary equipment, and technical expertise. The cost of a single pipe jacking machine can be prohibitively high, compounded by the need for support systems such as slurry management, guidance control, and maintenance facilities, creating barriers for new market entrants and smaller operators.

Furthermore, the operational costs associated with these machines are considerable, as they demand skilled operators, specialized maintenance personnel, and regular servicing to ensure efficiency and safety. Downtime due to equipment malfunction or improper handling can result in severe project delays, leading to additional financial losses. In addition, procurement of spare parts and components, often from limited or international suppliers, can increase expenses and lengthen repair cycles, especially in developing regions where local availability is scarce.

The requirement for continuous technical training further adds to operational costs, as companies must invest in keeping their workforce updated on advanced machine functionalities, safety protocols, and compliance standards. These cost factors also restrict flexibility for contractors when bidding for infrastructure projects, as pricing competitiveness may be undermined by higher overheads compared to traditional excavation methods.

Governments and municipalities, while recognizing the long-term benefits of trenchless technology, often face budget constraints that limit their ability to fund projects requiring high-end pipe jacking machines, creating a gap between demand for modern infrastructure solutions and the financial resources available to execute them.

The challenge is exacerbated in emerging economies where infrastructure expansion is needed most, but capital intensity hampers adoption, causing reliance on outdated construction techniques. As sustainability and environmental concerns push for reduced surface disruption and eco-friendly construction methods, the economic barrier posed by high investment and operational costs remains a major hurdle, preventing faster scaling of pipe jacking technology across diverse markets.

Unless financing models, equipment leasing options, or government incentives are introduced to lower this cost burden, the high financial entry threshold will continue to slow down adoption and limit growth opportunities within the global pipe jacking machine market.

Geological and Technical Limitations

Another critical challenge confronting the pipe jacking machine market is the complexity posed by geological and technical limitations, which significantly impact operational efficiency and project feasibility. Pipe jacking machines are designed to bore through a variety of underground conditions, but unpredictable soil compositions, mixed geology, and unstable ground environments can create serious obstacles that hinder performance and increase risks. For example, working in areas with high groundwater levels often demands additional dewatering systems and slurry management, which not only raises costs but also extends project timelines.

Similarly, rocky or abrasive soil conditions can cause rapid wear of cutter heads and machine components, requiring frequent replacement and leading to operational downtime. Such geological uncertainties can complicate project planning, as contractors must allocate higher contingencies and buffer resources to manage unforeseen conditions, making cost estimates less reliable and project execution riskier. Furthermore, technical limitations of pipe jacking machines—such as restrictions on jacking distance, pipe diameter, and alignment flexibility—can limit their applicability in certain large-scale or complex urban projects.

Curved alignments or long-distance jacking operations remain technically challenging and may require multiple intermediate shafts, which can disrupt project flow and reduce the overall cost-effectiveness of the method. The reliance on precision guidance systems adds another layer of complexity, as even minor errors in navigation can result in misalignment, necessitating corrective actions that delay projects and escalate costs.

Additionally, harsh working environments can expose operators and maintenance teams to safety hazards, demanding stringent safety measures and advanced monitoring systems, which further complicate project management. In many developing regions, the availability of skilled engineers capable of managing these technical complexities is limited, leading to execution challenges and reliance on foreign expertise, which raises costs and slows technology adoption. These geological and technical challenges are particularly critical in densely populated urban areas where underground utility networks are congested, requiring extreme precision to avoid damage to existing infrastructure. Th

e inability to effectively handle such complex environments restricts the broader applicability of pipe jacking technology and limits its role in addressing growing urban infrastructure demands. Unless machine designs evolve with greater adaptability, durability, and automation to mitigate these geological and technical risks, the market will continue to face obstacles in achieving widespread deployment. Overcoming these challenges requires significant investment in research and development, advanced engineering practices, and integrated planning approaches, but until such solutions are standardized, geological and technical limitations will remain a persistent barrier to the global growth of the pipe jacking machine market.

Key Market Trends

Rising Demand for Urban Infrastructure and Underground Utility Development

The global pipe jacking machine market is witnessing a significant trend driven by the escalating demand for urban infrastructure expansion and underground utility development, as cities worldwide grapple with rapid urbanization and the need to modernize their utility systems. Governments and municipal authorities are increasingly prioritizing underground infrastructure projects such as water supply networks, sewage systems, gas pipelines, and telecommunications conduits to address space constraints, environmental concerns, and growing population densities in metropolitan regions.

Traditional excavation techniques are often disruptive, time-intensive, and environmentally unsustainable, whereas pipe jacking machines offer a trenchless solution that minimizes surface disturbances, reduces project timelines, and enhances cost efficiency over the long term. The demand is particularly strong in megacities, where existing infrastructure is aging and requires replacement or augmentation without major disruptions to daily urban activities. Moreover, smart city initiatives are fueling the need for technologically advanced underground systems that integrate digital connectivity, renewable energy conduits, and resilient water management networks, all of which require precise and reliable tunneling solutions that pipe jacking machines can provide.

Countries in Asia Pacific and the Middle East, in particular, are experiencing rapid growth in infrastructure investment programs, further strengthening the adoption of trenchless technologies. The integration of pipe jacking methods with digital planning and modeling tools is enabling better project design and execution, providing engineers with enhanced capabilities to plan complex underground networks with accuracy and reduced risks. Additionally, public awareness of sustainable development practices is pushing policymakers to support methods that reduce the carbon footprint of construction projects, and pipe jacking machines align with these objectives by lowering emissions and environmental impact compared to open-cut excavation.

The convergence of rising infrastructure demands, sustainability goals, and technological advancements has positioned pipe jacking machines as a critical enabler of modern underground development. This growing adoption is likely to intensify as urban populations continue to surge, infrastructure needs multiply, and governments accelerate investments in resilient underground systems to future-proof cities against environmental and population pressures.

Technological Advancements and Automation in Pipe Jacking Machines

A major trend shaping the pipe jacking machine market is the ongoing wave of technological advancements and automation, which are transforming the operational efficiency, safety, and scalability of tunneling projects. Traditional pipe jacking methods often required intensive manual intervention and carried significant operational risks, but the latest generation of machines incorporates advanced automation systems, sensor technologies, and real-time monitoring to ensure precise alignment, reduced human error, and optimized performance in challenging geological conditions.

The integration of digital technologies such as artificial intelligence, IoT-enabled sensors, and predictive analytics has enhanced decision-making and allowed contractors to identify potential risks before they escalate, reducing downtime and costly delays. Additionally, manufacturers are focusing on improving the adaptability of machines to handle diverse soil and rock conditions, enabling their use across multiple terrains and environments without extensive modifications. Another notable advancement is the incorporation of energy-efficient designs and hydraulic systems that lower power consumption, contributing to both operational cost savings and sustainability goals.

Moreover, remote operation and automation features have enhanced worker safety by minimizing direct human exposure to hazardous underground conditions. The evolution of modular machine designs is also creating opportunities for cost-effective customization, allowing contractors to tailor solutions based on project scale, pipe diameter, and ground conditions. As demand grows for larger and more complex tunneling projects, including high-capacity sewage lines, water transport tunnels, and utility corridors, manufacturers are investing heavily in R&D to deliver next-generation solutions that combine speed, accuracy, and environmental responsibility.

The increased adoption of Building Information Modeling (BIM) and digital twin technologies is further advancing the integration of pipe jacking machines into broader infrastructure management ecosystems, enabling lifecycle monitoring and predictive maintenance. Collectively, these innovations are creating a new era for the industry, where digitalization and automation are not only enhancing productivity but also redefining benchmarks for safety, precision, and sustainability, thereby driving widespread adoption of advanced pipe jacking machines across global infrastructure projects.

Growing Emphasis on Sustainability and Eco-Friendly Construction Practices

Sustainability has become a defining trend in the pipe jacking machine market, as stakeholders across the construction and infrastructure ecosystem prioritize eco-friendly solutions to reduce environmental impact while meeting the demands of large-scale urban projects. Pipe jacking machines, being a trenchless technology, are inherently more sustainable than open-cut excavation because they minimize land disruption, reduce noise and dust emissions, and preserve existing roadways, green spaces, and urban structures.

As governments implement stricter environmental regulations and construction firms adopt green building standards, the role of pipe jacking machines in delivering sustainable underground construction solutions is gaining prominence. Companies are increasingly marketing these systems as environmentally responsible technologies that align with global carbon reduction targets and climate resilience initiatives.

Moreover, the ability of pipe jacking methods to reduce project timelines translates into less energy consumption and lower emissions throughout the construction lifecycle. In urban areas where surface land is scarce and preservation of cultural or ecological landmarks is critical, trenchless methods present an optimal solution that balances progress with sustainability.

This trend is further amplified by the push toward sustainable urban drainage systems (SUDS), renewable energy distribution networks, and eco-friendly transport corridors, all of which require underground infrastructure supported by low-impact tunneling methods. Additionally, construction firms are adopting circular economy principles by seeking equipment that is energy efficient, durable, and capable of being repurposed for multiple projects, thereby reducing waste and extending the lifecycle of machinery investments. Manufacturers are responding by designing pipe jacking machines that incorporate energy-saving features, low-emission components, and recyclable materials.

Segmental Insights

Type Insights

The Soft Rock Pipe Jacking Machine segment held the largest Market share in 2024. The soft rock pipe jacking machine segment is witnessing strong market momentum, driven by the rising demand for efficient underground infrastructure development in urban and semi-urban regions, where minimizing surface disruption is a critical requirement. Rapid urbanization, coupled with the expansion of smart cities, has intensified the need for tunneling solutions that allow for the installation of pipelines, sewage systems, and utilities beneath densely populated areas without affecting surface activities such as traffic and commercial operations. Soft rock pipe jacking machines provide a highly effective solution in these scenarios, as they are specifically engineered to handle variable geological conditions where traditional excavation methods are costly, disruptive, and time-consuming.

The increasing emphasis on upgrading aging water and wastewater infrastructure, alongside the growing implementation of sustainable urban drainage systems, further propels adoption of these machines. Governments and private contractors are increasingly favoring trenchless technologies to ensure faster project completion, improved safety, and reduced environmental impact, all of which align well with the advantages offered by soft rock pipe jacking machines. Additionally, the surge in energy demand and the associated need for underground cable and pipeline installations across power and utility sectors are creating further growth avenues for this segment.

The ability of these machines to deliver precise, reliable, and continuous operations even in mixed or unstable ground conditions strengthens their appeal in complex civil engineering projects. Moreover, ongoing advancements in machine design, automation, and cutting tools are enhancing performance, reducing downtime, and lowering operational costs, making them more accessible to contractors and project developers.

With infrastructure investments accelerating in both developed and emerging economies, particularly in metro rail expansion, oil and gas pipeline networks, and telecommunication projects, the demand for soft rock pipe jacking machines is set to rise significantly. Their role in ensuring minimal disruption to urban life, combined with their cost-efficiency and adaptability across diverse project scales, positions the segment as a vital driver of growth within the global pipe jacking machine market, enabling stakeholders to address the twin challenges of modern infrastructure development and environmental sustainability.

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Regional Insights

Largest Region

The North America region held the largest market share in 2024. The North America pipe jacking machine market is primarily driven by the region’s increasing emphasis on modernizing and expanding underground infrastructure, including water supply networks, sewage systems, and utility tunnels, to meet the demands of growing urban populations and stringent environmental standards. As cities expand and aging infrastructure requires replacement, municipalities and private contractors are increasingly adopting trenchless technologies such as pipe jacking, which enable the installation of pipelines with minimal surface disruption, reduced environmental impact, and lower long-term maintenance costs.

The rising need for sustainable construction practices is another major factor propelling market growth, as pipe jacking machines provide a more environmentally friendly solution compared to traditional open-cut excavation methods by limiting surface damage, noise, and emissions. Additionally, the ongoing investments in urban redevelopment projects and smart city initiatives across the United States and Canada are boosting demand for efficient underground utility placement, particularly in densely populated metropolitan areas where space constraints and traffic congestion necessitate non-disruptive installation techniques.

The region’s oil and gas sector, coupled with rising energy infrastructure development, also contributes to the adoption of pipe jacking machines for laying underground pipelines, enhancing market prospects. Technological advancements in machine design, including higher precision guidance systems, improved automation, and advanced monitoring capabilities, are further driving uptake by improving accuracy, efficiency, and safety in complex soil conditions often found in North America. The regulatory environment, which prioritizes sustainable infrastructure development, has also played a role in encouraging municipalities and contractors to adopt trenchless technology solutions for large-scale projects.

Furthermore, rising labor costs and workforce shortages in the construction sector have increased reliance on automated and mechanized solutions such as pipe jacking to deliver projects within budget and on time. The integration of digital technologies, including real-time monitoring and predictive maintenance systems, is enhancing operational efficiency and reliability, making pipe jacking a preferred method for contractors.

Emerging region:

South America is the emerging region in Pipe Jacking Machine Market.  The Pipe Jacking Machine market in South America’s emerging regions is being powerfully propelled by an unprecedented surge in investment toward expanding underground infrastructure—particularly utilities and urban transit systems—driven by rapid urbanization, escalating population densities, and growing aspirations for sustainable, resilient city planning.

Governments and municipalities across countries such as Brazil, Chile, Colombia, and Peru are prioritizing sub-surface solutions to preserve urban roads, reduce surface traffic disruption, and accelerate delivery of essential water, sewage, telecommunications, and subway networks, with pipe jacking technology offering a safer, more precise, and minimally invasive alternative to traditional open-cut excavation.

As metro rail projects and sewage modernization efforts gain momentum in metropolitan areas, the requirement for trenchless methods that can navigate complex geology, preserve surface-level activities, and comply with stringent environmental regulations is intensifying, making pipe jacking systems highly sought after for their ability to bore accurately under dense urban infrastructure with controlled alignment and grade; further, the region’s expanding reliance on robust underground utility connectivity—such as fiber-optic broadband, stormwater management, and district heating—combined with mounting pressure to maintain uninterrupted city services while minimizing public inconvenience, is encouraging municipalities to choose specialized pipe jacking solutions.

This trend is further supported by enhanced financing frameworks, including public–private partnerships and multilateral development bank funding, which are lowering capital barriers and enabling infrastructure developers to procure advanced pipe jacking machinery; concurrently, local contractors are increasingly seeking partnerships with global equipment suppliers to secure technical expertise, operator training, and after-sales support for pipe jacking operations tailored to the unique South American geological and regulatory environments.

Recent Developments

• In February 2025, TechnipFMC has been awarded the Sparta and Northern Endurance iEPCI contracts, valued at up to USD 1 billion, marking the company’s entry into the first all-electric subsea project. The project underscores TechnipFMC’s commitment to sustainable offshore solutions by reducing carbon emissions and improving operational efficiency. Leveraging advanced subsea engineering capabilities, the initiative is expected to drive innovation in electric-powered subsea infrastructure, reinforce long-term client partnerships, and position the company as a leader in next-generation offshore energy technologies.
• In October 2024, Baker Hughes has secured an order for 77 kilometers of flexible pipe to support Petrobras’ pre-salt developments. This contract highlights Baker Hughes’ expertise in providing high-performance, reliable offshore solutions for complex deepwater projects. The delivery of flexible piping solutions is designed to enhance operational efficiency, ensure safety under challenging subsea conditions, and support Petrobras’ ambitious energy extraction targets, reinforcing Baker Hughes’ strategic position in the global offshore oil and gas market.
• In September 2024, Saipem has won a USD 4 billion EPC contract for QatarEnergy’s North Field Compression Program, a landmark project aimed at expanding gas processing capacity. The agreement emphasizes Saipem’s capabilities in large-scale energy infrastructure projects, encompassing engineering, procurement, and construction. By leveraging advanced technologies and project management expertise, Saipem is positioned to deliver enhanced operational efficiency, accelerate project timelines, and strengthen its role as a trusted partner in the global natural gas and LNG markets.
• In June 2024, Strohm has successfully raised USD 21.4 million to accelerate its carbon capture, utilization, and storage (CCUS) and hydrogen pipeline programs. The funding will support the development and commercialization of next-generation solutions in sustainable energy infrastructure. Strohm’s focus on low-carbon technologies positions the company to capitalize on the growing global demand for decarbonization initiatives, hydrogen transport, and energy transition projects, enhancing its market presence while advancing innovative solutions that address critical environmental and energy challenges.

Key Market Players

• Herrenknecht AG
• Akkerman Inc.
• The Robbins Company
• Terratec Ltd.
• Iseki Poly-Tech, Inc.
• China Railway Construction Heavy Industry Corporation Limited (CRCHI)
• MTS Perforator GmbH
• SELI Overseas S.p.A.
• RASA Industries, Ltd.
• Vermeer Corporation

Report Scope:

In this report, the Global Pipe Jacking Machine Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• Pipe Jacking Machine Market, By Type:

o   Soft Rock Pipe Jacking Machine

o   Slurry Balance Pipe Jacking Machine

o   Others  

• Pipe Jacking Machine Market, By Application:

o   New Sewerage & Drainage Construction

o   Gas & Water Mains

o   Oil Pipelines

o   Road Underpasses

o   Bridge Abutments  

• Pipe Jacking Machine Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  France

§  United Kingdom

§  Italy

§  Germany

§  Spain

o   Asia-Pacific

§  China

§  India

§  Japan

§  Australia

§  South Korea

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Middle East & Africa

§  South Africa

§  Saudi Arabia

§  UAE

§  Kuwait

§  Turkey

Competitive Landscape

Company Profiles: Detailed analysis of the major companies presents in the Global Pipe Jacking Machine Market.

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Company Information

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