Welcome to Jindal Advanced Materials Manufacturing Facility

State-of-the-Art Manufacturing Infrastructure

Factory Premises

  • Covered Area: 1650 Sq mt

  • Open Space: 1000 Sq mt

  • Internal Lab: Ensuring Quality at Every Step

  • Dedicated Paint Booth: Expert Painting and Gelcoat Spray

  • Trimming Area: Precision Trimming Operations

  • Heating Oven: Perfect Part Curing

  • Temperature Control: Ensuring Optimal Conditions

Latest Manufacturing Processes

At Jindal Advance Materials, we employ cutting-edge manufacturing processes to deliver top-quality products. Our four established processes are supplemented by an upcoming addition.

Vacuum Infusion

Utilize vacuum pressure to infuse resin into the laminate, ensuring a high glass-to-resin ratio and reduced resin usage.

Benefits:

  • Stronger laminate with low void content

  • Cleaner process

Long Fibre Injection Moulding Technology (Coming Soon)

Description: Revolutionizing the industry with a one-step process that combines polyurethane resin and chopped fibreglass for complex parts.

Key Advantages:

  • High strength, 55% lighter than SMC

  • Up to 50% fibre content

  • Premium surface with various finishing options

  • Lower cost materials

  • Reduction of waste and short cycle times

  • High flexibility in fiber content and length


Hand Lamination

Saturate reinforcement materials with curing resin using precision techniques, building up layers for desired thickness.

Benefits:

  • Low tool and operating costs

  • Applicable to all products

  • Achieves fire-resistant properties

Transfer Moulding (L-RTM)

Description: A controlled process involving vacuum assistance and closed mold resin transfer for consistent, high-quality products.

Benefits:

  • Smooth finish on both sides

  • Quality consistency with moderate tool cost

Why FRP is better than aluminum

Strength: FRP is 10 times stronger than aluminum, providing exceptional structural integrity for various applications.

Shaping Ease: FRP's malleability allows for a broader variety of shapes and designs compared to aluminum, enabling greater design flexibility.

Weight: Being 40% lighter than aluminum, FRP contributes to enhanced fuel efficiency and performance, particularly in aerospace and automotive industries.

Electrical Insulation: FRP is inherently non-conductive, making it an excellent choice for applications where electrical insulation is crucial.

Chemical Resistance: FRP's superior resistance to a wider range of chemicals makes it ideal for environments where corrosion and chemical exposure are concerns.

Corrosion Resistance: FRP is more resistant to a wider range of corrosive substances, making it suitable for environments with aggressive chemicals.

Why FRP is better than steel

Strength: FRP is 10 times stronger than steel, providing impressive structural integrity.

Cost-Efficient: Lower installation and maintenance costs due to ease of fabrication and its lightweight nature.

Lightweight: FRP is 70% lighter than steel, making it easier to handle, transport, and install.

Impact Resistance: FRP exhibits superior impact resistance compared to steel, increasing durability.

Fire Retardant: Unlike steel, FRP maintains its strength when exposed to fire, enhancing safety.

Corrosion Resistance: FRP doesn't corrode, making it ideal for environments with moisture or chemicals, a problem that steel often faces.