Engineered Polymer Sleeper | Vossloh Topic Lounge

“StEPS ahead” with the environmentally friendly Engineered Polymer Sleeper (EPS) made of amalentic

Progressive expansion of competencies

Constant product properties

168+ test characteristics were identified & 330 internal tests were carried out for the new, 100% recyclable material mix called amalentic

Unique manufacturing process

... whose multifunctional tool concept opens up application possibilities for customers in the track that were previously not feasible, such as the use of direct fasteners.

Track EPS

Numerous customization options for an accelerated & simplified installation process

Turnout EPS

Sophisticated & variable solution for special switch interfaces

EPS bridge beam

incl. guide rail, height-adjustable & accelerated installation

Reason why for an alternative to composite & wooden sleepers

Thanks to amalentic, EPS combines all the positive properties of concrete, wood and plastic sleepers. The innovative amalentic material mix of secondary raw materials in industrial quality and additives forms the basis for ensuring that the most important product requirements, such as high weather resistance, low thermal expansion, high lateral track stability and stable track gauge, are met to a particularly high degree.

Environmentally friendly & 100% recyclable

High compression strength, defined & stable properties

Low thermal expansion coefficient, additional steel reinforcement

Increased safety due to the use of reinforcement

Complete solution with rail fastening systems, usage of direct fasteners

Excessive testing to develop amalentic

Economical & eco-friendly sleeper alternative for tracks, switches & bridges

168+ requirements were identified
About 330 in-house trials were carried out to achieve the optimum material compound that fulfils the standards and customer requirements
Determination of the influence of temperature on mechanical properties
Participation in the standardization committee for plastic sleepers ISO and AREMA

International requirements:

ISO 12856-1:2022-02 material characteristics
ISO 12856-2:2022-11 product testing
ISO 12856-3:2022-02 general requirements (Proposal)

National requirements:

AREMA Chapter 30 Part 5
Operational capability test (Betriebstauglichkeitsuntersuchung) DB/EBA Version 8
SPC00298 ProRail

Overview of specifications

Refurbishment & adjustment possibilities

Repair kit for in-track

Our sustainability concept of course also covers refurbishment and adjustment possibilities.

If, for instance, a hole is at the wrong position, this can be easily rectified. Simply clean the hole (blowing out will do the job), fill it with casting compound, let it harden, drill a new hole at the required position, and screw in the screw at the correct location.

Also larger damage can be repaired easily.
Even the gauge can be subsequently adjusted.

New series production

State-of-the-art & largely automated production plant
Initial capacity of around 100,000 composite sleepers per year (daily capacity approx. 480 units)
The production process complies with all European energy standards and the topic of sustainability was also a focus from the outset when designing the individual production steps. For example, green electricity is used for production and energy is recovered and reused wherever possible.
The innovative tool concept enables flexible adaptation of the product design to customer requirements.
The product portfolio includes track and turnout sleepers as well as special products for railway bridges:

Engineered Polymer Sleeper – Engineered Polymer Sleepers made of amalentic

Material

New environmentally friendly recyclable composite material in uniform industrial quality
Consists of filler material, polymer & additives
Polymer 100% recycled
Sand 100% natural product no additives
Rebars approx. 100% scrap steel

Material production

Polymer is melted and homogeneously mixed with filler & additives

Sleeper production

Mould preparation and reinforcement positioning
The prepared compound is poured into the mould; pressed under high load, cooled and then demoulded

Recyclable

After the product life cycle – in other words after around 50 years on the track –, the EPS is shredded and the material separated. As each sleeper is labeled with a number, the exact material mix is known.
Before the material is reused, the material is cleaned before processing to ensure quality requirements are met.

Unique Production process

Flexible adaptation of the product design to customer requirements

Customers can order their EPS without any restrictions concerning design, both the sleeper shape and the positioning and type of reinforcement can be adapted to application-specific requirements.
A special feature of the EPS and, above all, its manufacturing process is the multifunctional tool concept, which for the first time opens up previously unrealizable application possibilities in the track:
- This means that our sleepers can be supplied with prefabricated, precisely positioned core holes for the sleeper screws – with or without internal threads. This reduces the torque during tensioning, increases the extraction forces and eliminates the need for time-consuming drilling work on the track construction site. Nevertheless, subsequent machining options such as drilling, sawing, milling and grinding are still possible.
  The screw axis can also be designed with a precise 5° inclination, as required for direct fastening for pre-assembly.

Customers can choose between different rail fastening solutions – direct or indirect, including safety guard. The prefabrication of beads for a direct fastening is also possible, e.g. to reflect different inclinations in the rail bed. This makes the EPS perfectly suited for W systems with our tension clamps of the new M generation.
To increase the track stability, lateral profiling as well as corresponding recesses on the bottom side of the sleeper can be provided.
Instead of prefabricated drill holes or beads for screwed fastening systems, also cast iron shoulders can be embedded in the EPS for the usage of clipped rail fastening systems.
By incorporating a steel reinforcement, as you know it from concrete sleepers, we ensure an increased safety in the track. By changing the diameter of the reinforcement, the sleeper can be adapted to the various requirements. While the standard sleeper is approved by the EBA for the main line with a diameter of 16 mm, the turnout sleepers with same dimensions are approved for the main line with a diameter of 20 mm in order to improve the coefficient of thermal expansion.

Standard Track sleeper

Covering a wide range of applications

Dimensions

Length: up to 3 m
Height: 100, 140, 150 and 160 mm
Width: 250 and 260 mm

Special features

For the first time with direct fastening
Different inclinations and track gauges without additional machining

Some references

Bulgaria
Czech Republic
Finland
Germany
Italy

Norway
Romania
Sweden
USA

Benefits of direct rail fastening systems

Environmental comparison

Usage of direct fastening systems as W-systems saves our environment
Much less weight and less parts lead to lower CO2 equivalent per sleeper

Benefits of direct rail fastening systems

Reduced complexity & quantity of components

Less material & transport costs

Less master data maintenance

Reduced material stock

Lower risk of losing small parts

Benefits of direct rail fastening systems

Reduced assembly & installation time

Wooden sleepers and other composites always need to be drilled
The ribbed plate is positioned beforehand for graining
Alternative: Drilling in the drilling center or in the track
Additional longer mounting of KS system

1. Graining

2. Drilling

3. Mounting of KS system on wooden sleeper

Mounting of direct fastening system on prefabricated T-groove

Approved integrated solution

Various fastening systems applicable on EPS – System tests realized for different configurations

Indirect Fastening – Heavy Haul:

Fatigue test according to category E
Axle load: 35 t
Test angle: 40°; Test load: 108 kN

Direct Fastening – Conventional Rail:

Fatigue test according to category C
Axle load: 26 t
Test angle: 33°; Test load: 75 kN

Direct Fastening – Heavy Haul:

Fatigue test according to category E
Axle load: 35 t
Test angle: 40°; Test load: 108 kN

Fastening Systems on EPS tested successfully according to DIN EN 13481-3!

EPS PORTFOLIO FOR TURNOUT APPLICATIONS

ADAPTED TO SPECIAL TURNOUT ARRANGEMENTS

With the newly opened series production in Poland, the range of sleeper lengths has been expanded:

Length: 2.2 – 5 m; in 0.1m increments (can be extended for requirements over 5 m in length)
Height: 150, 160 mm
Width: 250, 260 mm

We are also working on an anchor rail solution for flexible fixing with direct fastening solutions – a plus in urban transport.

DB AG / EBA - PERFORMANCE APPROVAL FOR TURNOUT SLEEPERS

Test set-up / results

In the serviceability test for the EBA approval at the Technical University of Munich, the EPS convinced with remarkable results, particularly with regard to thermal expansion, despite the stricter requirements for turnouts.

ADAPTED TO SPECIAL TURNOUT INTERFACES

Adaptive processing options for turnout assembly:
- Milled recesses for ALD technology (Actuation, Locking & Detection)
- Helpful marking of the reinforcement position for CNC drilling of the core holes and various fastening solutions
During mechanical treatment such as drilling, sawing, milling, and grinding, no hazardous dust is created (EPS does not contain glass fiber)
Moreover, subsequent adjustments or repairs of the holes and/or the gauge are possible.

References

Germany
Canada
Turkey

EPS Project in Montreal

A successful one Vossloh story

In a suburb of Montreal, the rail infrastructure of an existing yard was renewed. The previous tracks embedded in asphalt were to be replaced by ballasted tracks. The earlier rail profile 100RA was changed to 115RE.

Additional challenge: turnouts are equipped with precast concrete panels for rubber-tyre vehicles to run on top. Moreover, the tracks will be used by vehicles of very different types with a total of 16 different wheel profiles.

Delivery: six short Tg1/5 turnouts on EPS, each of which required a customized footprint because of the nested arrangement. Tailored floor plans for each turnout and special metal cases were developed that allow a passing with rubber tyres and facilitate the access for maintenance. The cast manganese steel crossings were adapted to the wheel profiles so that even in case of an impaired traffic (flat tire), a safe operation would be ensured.

The first turnout completely fitted to the EPS was accepted by the customer in the factory; the subsequent acceptances were performed via Remote Live Stream. For the transport, the turnouts were fully coated.

The consignment was delivered by ocean freight to the site in Montreal where the installation and commissioning were completed. This marked the successful closure of a truly international Vossloh project. While the EPS for the turnouts came from the Vossloh Skamo factory in Nowe Skalmierzyce in Poland, the manganese steel crossings were cast in the foundry in Outreau, turnouts manufactured in Reichshoffen, and all these components were finally brought together in Fère-en-Tardenois (all in France). The installation in Montreal started mid July 2024 with the assistance of Vossloh Service France. For its customers, Vossloh is a one-stop shop for turnout systems on composite sleepers – a perfect match.

Maximum flexibility

EPS bridge beam

EPS Bridge Beams

Description

Basic bridge beam with dimensions of 240 x 160 x 2,600 mm
Integrated guide rail
Additional height adjustment elements from 20 to 160 mm
Quick & simple positioning and fixing of vertical elements
Through-bolts for securing the basic beam with the height adjustment elements
Weight from 170 to 200 kg possible

Features

Screw & fixing holes can be realized directly in the EPS
Bridge beam height adjustable and requiring no or minimal machining
Sustainability through optimum use of material

DB AG / EBA Performance approval for bridge beams

Test setup / results

The EPS bridge beam also successfully passed the EBA approval test.

bridge beam concept - Exemplary illustration

Minimum height of the bridge beam incl. height adjustment elements: 180 mm
Using height adjustment elements, the overall height of the bridge beam can be displayed in 5 mm increments
Maximum height of the bridge beam 320 mm
Further heights by processing the height adjustment elements or using intermediate plates
Simple assembly of the height adjustment elements

Sleeper width	Basic beam	Height adiustment	Overall height	Overall height incl. relief ≤ 10 mm
240 mm	160 mm	20 mm	180 mm	170 mm
240 mm	160 mm	25 mm	185 mm	175 mm
240 mm	160 mm	30 mm	190 mm	180 mm
…	…	…	…	…
240 mm	160 mm	155 mm	315 mm	305 mm
240 mm	160 mm	160 mm	320 mm	310 mm

The support distance between the bridge girders can be adjusted with the height adjustment elements

The distance between the supports should be observed considering the maximum eccentricity (≤ 200 mm)
The maximum distance between the bridge girder supports results from the nominal track gauge / rail support centre and the maximum eccentricity.

Example:

Rail support center + max. eccentricity = max. distance between bridge girder supports
- 1,500 mm + (2 x) 200 mm = 1,900 mm

Reduced installation time

Height can be pre-adjusted in mm steps
Fixing holes for girders can be prefabricated
Prefabricated screw holes
Pre-assembled rail fastening

Processing options

Our manufacturing process eliminates many manual operations such as drilling or milling.

European bridge project

With Challenging technical requirements

Bridge with 308 bridge beams incl. pre-mounted KS fastening system, height adjustment, plus arresting & guiding device
Delivery: July 2024
Key challenges: Technical concept with varying heights, fastening to steel girder