Ocean Global Non Wovens Pvt Ltd articles

The Indian infrastructure sector is expanding rapidly, with highways, railways, industrial corridors, smart cities, and water-management systems driving demand for soil stabilization, drainage control, erosion prevention, and enhanced structural durability. Geosynthetics provide engineered polymeric solutions that address weak soils, heavy rainfall, environmental protection requirements, and increasing traffic loads, enabling durable performance and potential lifecycle cost benefits.

Reinforced Cement Concrete projects in Maharashtra increasingly rely on barrier and lining systems to mitigate moisture ingress and subgrade interaction. This case study documents the deployment of Ocean HDPE Liner (300 micron) for a RCC-related infrastructure project in Chhatrapati Sambhaji Nagar, Maharashtra. The scope covered 2,857 square meters of liner installation as part of protective and separation layers within RCC works.

HDPE liners in RCC infrastructure HDPE

• Project: Reliance Project
• Location: Jogwad, Gujarat
• Product Used: Ocean Geosynthetic Cementitious Composite Mat (GCCM) 12 mm
• Quantity Supplied: 900 sqm

Introduction

Large industrial projects demand infrastructure solutions that combine speed of execution, structural reliability, and long-term durability. As industrial corridors e

• Project: Reliance Project
• Location: Chandauli, Uttar Pradesh
• Product Supplied: Ocean Non Woven Geotextile 3 MM (Polyester)
• Quantity: 16,184 SQM

Introduction

Large industrial and infrastructure projects demand ground improvement solutions that go beyond conventional civil engineering methods. Weak subgrades, fluctuating groundwate

The Guwahati road reinforcement project utilized Ocean Uniaxial Geogrid 40 kN at the subgrade–granular base interface to improve load distribution, limit lateral deformation, and extend pavement life under heavy traffic and monsoon exposure. A total of 5,000 SQM was deployed to strengthen a public road corridor in Guwahati, Assam, addressing urban and peri-urban connectivity needs.

Project Overview

Project name: Road Project. Location: Guwahati, Assam. Product supplied and u

Project Overview

• Project Name: Road Project
• Location: Guwahati, Assam
• Product Supplied and Used: Ocean Uniaxial Geogrid 40 kN
• Quantity: 5,000 SQM
• Client Sector: Public road infrastructure (urban and peri-urban connectivity)

Guwahati i

Project Overview

Kullu district in Himachal Pradesh lies in a highly sensitive Himalayan terrain where steep slopes, intense monsoon rainfall, and fragile soil conditions frequently lead to erosion, landslides, and slope failures. Infrastructure development, road widening, and changes in natural drainage patterns further increase the vulnerability of hill slopes in this region.

To address these challenges, Ocean Non Wovens supplied Coir Geotextile

Introduction

Retaining walls and landscaping structures are critical components in civil and landscape engineering. These structures not only hold back soil but also manage erosion, control drainage, and enhance site aesthetics. At Ocean Non Wovens, we focus on innovative, durable geosynthetic solutions that deliver both performance and sustainability. In the “Mehul Geo Projects LLP” located in Talcher, Odisha, our team supplied and installed Ocean Rope Ga

Product supplied: Ocean Non Woven Geotextile
Quantity: 1,50,000 SQM
Location: Medinipur, West Bengal

Infrastructure development in regions like Medinipur, West Bengal demands materials that can perform reliably under variable soil conditions and seasonal rainfall. As part of this project, Ocean Non Woven Geotextile was supplied across a large area of 1,50,000 square metr

Executive summary

For a medium-scale retaining wall and adjacent landscaping project in Rewari, Ocean Non Wovens supplied and installed 1,000 square metres of geocomposite drainage/reinforcement material. The geocomposite served three simultaneous purposes: filtration, drainage, and partial reinforcement behind the wall face, allowing a slimmer drainage trench, reducing the need for large stone chimney drains, and improving long-term performance under seasonal rainfal