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Mumbai-Ahmedabad Bullet Train Track Work Advances with Japanese Tech

Track installation for the Mumbai-Ahmedabad Bullet Train is progressing with the innovative Japanese J-Slab ballastless track system. Two manufacturing facilities in Gujarat are producing the precise concrete slabs needed for the project. Significant construction milestones have been reached, including 185 route km of track bed laid and slabs installed across 70 route km. The fully mechanized process utilizes specialized equipment, much of it manufactured in India, following Japanese high-speed rail construction practices.

Key Points: Bullet Train Track Installation Progress with Japanese J-Slab System

  • First use of Japanese J-Slab system in India
  • Two Track Slab Manufacturing Facilities in Gujarat
  • 70 route km of track slabs laid and secured
  • Fully mechanized process with Indian-made equipment
3 min read

Mumbai-Ahmedabad Bullet Train project sees progress in track installation using Japanese J-slab system

Track work for the Mumbai-Ahmedabad Bullet Train advances using Japan's J-Slab system. Learn about the mechanized process and construction milestones.

"The track installation process is fully mechanised and uses specialised machinery designed as per Japanese construction practices - NHSRCL"

Ahmedabad, April 22

Track installation work on the Mumbai-Ahmedabad Bullet Train project is progressing steadily, with the adoption of the advanced J-Slab ballastless track system based on the Japanese Shinkansen technology, which is being used for the first time in India, according to an official statement by the National High Speed Rail Corporation Limited.

The NHSRCL stated that the J-Slab track system comprises four key components--RC Track Bed, Cement Asphalt Mortar (CAM), Pre-cast Track Slab, and rails with fasteners--designed to support high-speed train operations.

To support the production of track slabs, two state-of-the-art Track Slab Manufacturing Facilities (TSMF) have been set up at Kim near Surat and Anand in Gujarat. These facilities are producing high-grade concrete slabs with precise dimensions to ensure a consistent supply for the project.

The slabs are stored at the factory and transported via trailers to Track Construction Bases (TCBs), which act as operational hubs for handling materials, machinery, and equipment both on the ground and at the viaduct.

At present, ten TCBs are operational--four between Surat, Bilimora and Vapi, and six between Vadodara, Anand and Ahmedabad.

National High Speed Rail Corporation Limited (NHSRCL) is a government-owned entity, specifically a "Special Purpose Vehicle" (SPV). It is a joint venture company involving the Central Government through the Ministry of Railways (50% equity) and the state governments of Gujarat (25%) and Maharashtra (25%).

According to the statement, significant progress has been made in track construction. A total of 185 route km of RC Track Bed has been laid, while 188 route km of track slabs have been manufactured. Additionally, track slabs have been laid and CAM injected across 70 route km.

The company also added that the track installation process is fully mechanised and uses specialised machinery designed as per Japanese construction practices, with most equipment manufactured in India.

Among the key machines being used is the Flash Butt Welding Machine (FBWM), which welds 25 m long 60 kg rails into 200 m long panels at the TCB. These welded rails undergo strict approval processes to ensure they are fit for high-speed operations at 320 kmph. Training and certification for rail welding and inspection have been conducted by the Japanese company JARTS.

The Track Slab Laying Car (SLC) is used to lift and place precast slabs onto the viaduct, with the capacity to handle five slabs at a time. Meanwhile, the Rail Feeder Car (RFC) is used to transport and lay 200 m long rail panels over the track bed.

After slab placement, the Cement Asphalt Mortar Injection Car (CAM Car) is deployed to inject the CAM mixture beneath the slabs, ensuring proper alignment and levelling of the track.

The adoption of advanced technology and mechanised processes is expected to enhance the efficiency and precision of track installation for India's first high-speed rail corridor.

- ANI

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Reader Comments

P
Priya S
Impressive engineering details. The J-slab system sounds very robust. My only concern is the final ticket pricing. Will it be affordable for the common person, or will it just be a luxury for the elite? Hope the government keeps public interest in mind.
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Aman W
Great to see most equipment is 'Made in India'. That's the spirit! This project will boost our manufacturing and technical skills. Hope the workers are getting proper training and safety measures are top-notch.
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Sarah B
The scale and precision involved are mind-boggling. 185 km of track bed already laid is no small feat. As someone who travels frequently between these cities for work, this will be a life-changer in terms of time saved.
V
Vikram M
Good update, but the project is already years behind schedule. We were promised a much earlier completion. While the tech is advanced, project management and land acquisition issues need equal focus to actually deliver on time.
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Nisha Z
Hope this success leads to more high-speed corridors across India, like Delhi-Kolkata or Chennai-Bengaluru. The economic boost for connected cities will be tremendous. Jai Hind!

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