Global Rail Composite Market 2021-2026

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Railway composites offer significant flexibility in train design and aid in optimizing train performance. Composite materials are progressively being employed in the railway sector across the world, where performance enhancement is vital.
Composites have been employed in railways because they suit the strict criteria of the industry. The usage of composites in engineering designs has become necessary due to their good performance in harsh situations such as high temperature, moisture, pressure, corrosion, high stress, and so on.

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Language

english

Publisher

Mobility Foresights

Release date

2021

Description

INTRODUCTION

Railway composites offer significant flexibility in train design and aid in optimizing train performance. Composite materials are progressively being employed in the railway sector across the world, where performance enhancement is vital.

Composites have been employed in railways because they suit the strict criteria of the industry. The usage of composites in engineering designs has become necessary due to their good performance in harsh situations such as high temperature, moisture, pressure, corrosion, high stress, and so on.

Railway composites minimize energy usage, help in vibration dampening to reduce noise levels, and increase passenger comfort.

Railway development, in particular, is characterized by the reduction of the weight of rolling stock vehicles. Such needs are expressed in the field of very high-speed transport, where weight reduction results in higher speed, higher transport capacities, and/or enhanced passenger comfort while maintaining a good energy balance, as well as in the field of urban and suburban rolling stock, were weight reduction results in enhanced acceleration and thus increased capacity in terms of passenger flow/hour.

Technical Interoperability Specifications limit the weight per axle to 17 tonnes at speeds more than 250 km/h.

While composites are utilized in a wide range of applications, the processes used to produce components are limited and typically entail a high degree of human work.

Despite the move toward automated and semi automated processes, manual lay-up and spray lay-up continue to be the most prevalent techniques for producing components for rail vehicle applications.

These processes are extremely versatile yet labour demanding, making them best suited for limited production runs of very big structures.

 GLOBAL RAIL COMPOSITE MARKET DEVELOPMENTS AND INNOVATIONS

S NoOverview of DevelopmentDevelopment DetailingRegion of DevelopmentPossible Future Outcomes
1Basaltex reveals basalt fibre milestone for use in rail carriage interiorsBasalt fibres company Basaltex NV (Wevelgem, Belgium) reports that it has achieved a significant milestone in developing and testing a new composite material solution for railway applications comprising basalt fibres with EconCore’s (Leuven, Belgium) patented honeycomb technology. Testing and development of basalt fibre, bio resin and rPET combo achieves rigidity, fire resistance and lightweight properties that meet railway application standards.GlobalThis would enhance better Emission Controls

 GLOBAL RAIL COMPOSITE MARKET DYNAMICS

The usage of railway composites in the transportation sector has increased over the last decade, and this trend is likely to continue throughout the projection period.

The transportation sector demands a material that is lighter, stronger, safer, and more inexpensive than traditional composites. Railway composites cut both energy use and operational expenses.

Railway composites are mostly employed in passenger coaches for their remarkable structural properties and aesthetic appeal. The most important trend in the worldwide railway composite market is hybrid construction, which involves the use of many materials to make a single component.

Furthermore, the growing attention of rail manufacturers on using energy-efficient and cost-effective materials is propelling market expansion.

With the growing need for high-speed rail (HSR), rail composites are being increasingly employed to build light-weight body shells, bogies, heating, ventilation, and air conditioning (HVAC) systems, and interior linings to reduce train weight.

Other growth-inducing elements include product developments such as the development of alternative composite materials such as phenolic sheet moulding compounds (SMC), modified epoxy glass prepreg, and thermoplastics. Product producers are also creating new products.

Although composite materials were once thought to be “expensive,” new production processes such as pultrusion and filament winding, which have been honed to manufacture high-quality, low-cost composite components, have led to considerable cost reductions in recent years.

Filament wound whole tanks for railcars and vehicles, as well as hopper car containers Other production processes, such as hand lay-up, spray-up, vacuum and pressure bag moulding, autoclave curing, press moulding, vacuum injection, and impregnation of braided preforms, are now available and being developed by both government and industry.

  GLOBAL RAIL COMPOSITE MARKET SEGMENTATION

The Global Rail Composite Market can be segmented into following categories for further analysis.

By Resin Technology

  • Epoxy
  • Polyester
  • Phenolic

 By Product fibre Usage

  • Glass Based fibre
  • Carbon Based fibre
  • Jute Based Fibre

 By Combination of Application

  • Interior Application
  • Exterior Application

 By Construction

  • New Placement
  • Upgradation
  • Maintenance and Repair

 By Regional Classification

  • Asia Pacific Region – APAC
  • Middle East and Gulf Region
  • Africa Region
  • North America Region
  • Europe Region
  • Latin America and Caribbean Region

  GLOBAL RAIL COMPOSITE MARKET RECENT ACQUISITION

 Creative Pultrusions, Inc. (CPI), a renowned producer of pultrusions, successfully acquired Composite Advantage (CA). A division of CPI, a company that is a part of Hill & Smith Holdings PLC, will be Composite Advantage. For important infrastructure markets, Composite Advantage is an engineering solutions provider of cutting-edge Fiber Reinforced Polymer (FRP) products.

With the aid of CA’s proprietary infusion technique, massive parts may be moulded, on-site assembly is possible, and client installations can be supported. For structurally demanding applications and corrosive conditions, CA has created lightweight, high-strength, cost-effective FRP items. From bridge decks, trail bridges, cantilever sidewalks, and rail platforms to fender protection systems, pilings, navy ship separators, and other coastal buildings, CA provides a wide range of goods.

Hill & Smith Holdings PLC, a worldwide organisation with dominant positions in the design, production, and supply of infrastructure goods and galvanising services to international markets, owns Creative Pultrusions, which is based in Alum Bank, Pennsylvania.

It primarily services its clients from sites in Australia, France, India, Norway, Sweden, the United Kingdom, and the United States. Hill & Smith Holdings PLC, which has its headquarters in the UK and is listed on the London Stock Exchange (LSE: HILS.L), employs some people, primarily in 7 countries.

 RECENT TECHNOLOGICAL TRENDS IN GLOBAL RAIL COMPOSITE MARKET

For quite some time, work on a composite bogie (wheel truck) has been ongoing. This looks to be the most important current development effort for a major heavy component of a train that is being developed in composites.

Because bogies account for a considerable amount of a car’s weight, significant weight reductions in the bogies could result in a much smaller total car weight, as well as reduced acceleration and brake energy consumption.

Weight savings in the propulsion and braking systems should result in additional weight savings in the automobile. Car weight reductions would result in reduced loads on guideway structures.

The majority of these applications make use of fibreglass, which is a glass fibre in a polymeric matrix that can be epoxy, vinyl ester, polyester, or any of a variety of other materials.

These composites have an excellent overall look and are quite durable. Their weatherability and cleanability are also excellent. Shapes that are both visually pleasing and aerodynamically appealing may be easily manufactured due to the formability.

After forming, the remaining characteristics of composites are adequate to allow their usage on external surfaces. Composites are generally resistant to vandalism, yet it appears that the non-printability feature for graffiti resistance.

Although several composite railway sleeper technologies have been developed, their applicability on train tracks remain restricted.

Currently composite sleeper technologies range from sleepers constructed from recycled plastic materials that include little or no fibre to sleepers that have a large number of fibres.

While recycled plastic sleepers are inexpensive, the main disadvantages of employing them are their restricted strength, stiffness, and dynamic qualities, which are sometimes incompatible with those of timber. High-fibre sleepers, on the other hand, are prohibitively expensive, limiting their widespread use.

Talgo is a renowned manufacturer of long-distance trains for use on traditional main line infrastructure. TALGO used innovative materials to make the wheelset frames for its Avril high-speed trains, replacing steel with carbon fibre reinforced polymer to reduce component mass by half without sacrificing structural integrity.

The use of composite materials reduces the overall weight of empty trains, improves energy efficiency, and has the potential to enhance the passenger capacity of each train.

The frames that contain Avril’s independently rotating Talgo wheelsets are now made of welded steel plates, and the design of these frames, as well as the necessity to preserve weld strength, limit component weight reduction.

Talgo has completed full scale testing of the composite frames in accordance with European standard CSN EN 13749, which addresses the structural requirements of bogie frames. Static and fatigue testing were performed, and no substantial damage was discovered during inspection.

Composites, according to Talgo, might be utilised to reduce component weight on intercity and commuter vehicles, thereby improving passenger capacity, simplifying assembly procedures, and lowering energy consumption and track wear. Other key structural components of a railway vehicle could also be made of composites.

 RAIL COMPOSITE MARKET COMPETITIVE LANDSCAPE

The rail driver’s cabs of today’s trains are generally made of a steel foundation to which a succession of thin aluminium or composite panels and valances are mounted via brackets.

The primary role of these secondary structures is to increase aerodynamic efficiency and vehicle aesthetics; however they have been demonstrated to provide some protection to the cab and its occupant from extremely low energy projectile strikes.

Repairing these components is an expensive and time-consuming task, resulting in extended train downtime and lost income.

Solvay has been part of the global rail industry since the inception of advanced rail systems wherein it has been working upon development of latest technologies within the structural and formulation requirements of composite materials.

The company has been developing the MTM prepreg technology which allows  for  the  manufacture  of  lightweight  advanced  composite  panels  for  carriage interiors,  and  interior  and  exterior  structural  applications.

Solvay offered MTM® 82C, a cutting-edge, market-leading phenolic-based prepreg technology, as well as engineering and material science assistance.

Thinner constructions, FST, weight reductions, and great mechanical performance are all possible with our prepreg technology. Penso’s experts devised a ground-breaking solution that incorporates Solvay’s phenolic composite material into its design.

This preserves and enhances the performance of current materials used in the production of the doors, as well as a mass savings of more than 10kg (well above the agreed target of 5kg). Lighter rolling stock also implies less wear on the track, which is critical.

Toray industries has been developing various levels and categories of composite materials to be used under the reinforcement requirements within the industry.

The 2592 prepregs are toughened 120 to 135°C cure systems which are combined mainly with high strength fibre. They are available in a variety of configurations, including unidirectional sheets and fabrics.

Torayca yarn is a high-performance carbon fibre composed of polyacrylonitrile manufactured by Toray (PAN). Toray has been making high-performance carbon fibre for the longest time, with the release of its Toray T300 in 1971, delivering a multitude of high-quality, reliable goods.

Toray composite materials contribute considerably to a broad range of areas, including aerospace, industrial, sport/leisure, and rail industry usage which is of major and considerable importance.

The high-volume manufacturing choice in thermoplastic technology, reinforced thermoplastic laminates (RTLs) provide the composite backbone to your production needs established under rail infrastructure to avoid and considerably make all possible environmental conditions to be maintained.

Companies mentioned