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Deepdraw Stamping

Transform your metalworking needs with Frigate’s Deep Draw Stamping Services, where precision meets innovation. Our expert team delivers customized, durable solutions designed to meet the specific demands of your projects efficiently and effectively! 

Our Clients

Advantages of Deepdraw Stamping with Frigate

Improved Surface Finish

Deep Draw stamping produces superior surface-quality components, reducing the need for secondary finishing processes and enhancing aesthetics and performance.

Consistent Wall Thickness

The technique ensures uniform wall thickness throughout the component, crucial for maintaining structural integrity and performance in demanding applications.

Reduced Production Time

Deep Draw stamping allows for rapid production cycles, enabling faster turnaround times for large batches. This efficiency helps meet tight deadlines effectively.

Complex Geometries

This method can create intricate shapes and designs that are challenging to achieve with other techniques. It allows for innovative product designs with minimal tooling.

Custom Deep Draw Stamping Solutions

Custom Deep Draw Stamping enables the creation of high aspect ratio components from flat metal sheets. This technique minimizes residual stresses, resulting in stronger parts. Precision tooling ensures tight tolerances for seamless assembly. Progressive die design enhances efficiency and allows intricate features without quality loss. Suitable for materials like stainless steel and aluminum, this process provides flexibility across automotive, aerospace, and electronics industries. Achieve faster lead times and reduced waste while delivering superior performance in every project. 

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Our Deepdraw Stamping Process

HY D R O L Y SIS RESIS T ANCE
Material Preparation

The process begins with selecting and preparing the metal sheet, which is typically cut to size based on the required dimensions for the final part. 

Tooling Design

Custom tooling is designed to create the desired shapes and features. This includes the die and punch, engineered for precision and efficiency. 

Blanking

The prepared metal sheet is fed into the stamping press, where the blanking operation cuts out flat shapes from the sheet, forming the initial piece for deep drawing. 

Deep Drawing

The blank is positioned in the die, and the punch presses down, deforming the material into the desired shape. This process can create complex geometries and deep cavities. 

Trimming and Finishing

Once the part is formed, excess material is trimmed away. Additional finishing processes may be applied to achieve the desired surface quality and dimensions. 

Quality Inspection

The final components undergo rigorous quality inspection, using techniques like coordinate measuring machines (CMM) to ensure they meet strict specifications and tolerances. 

Deepdraw Stamping Materials

Frigate offers a wide range of materials for Deep Draw Stamping, ensuring optimal performance for various applications. This extensive range ensures the production of high-quality components. 0

Aluminum

Aluminum is lightweight and corrosion-resistant, and it is commonly used in automotive and aerospace applications. Its excellent formability allows for complex shapes without compromising strength. 

Stainless Steel

Known for its durability and resistance to corrosion, stainless steel is ideal for components requiring high strength and longevity. It maintains its shape under extreme conditions and is often used in medical devices and industrial applications. 

Carbon Steel

This versatile material offers high strength and good ductility. Carbon steel is commonly used in structural components, providing excellent load-bearing capabilities in various industrial applications. 

Copper

Copper, with superior electrical conductivity and thermal properties, is frequently used in electronic components and heat exchangers. Deep Draw Stamping enhances its ability to form intricate shapes without losing conductivity. 

Brass

Brass combines good strength and corrosion resistance, making it suitable for decorative applications and plumbing fixtures. Its excellent machinability allows for detailed designs in Deep Draw Stamping processes. 

Nickel Alloys

These materials are engineered for high-temperature applications and are resistant to corrosion. Reliability is critical when nickel alloys are often used in aerospace and chemical processing industries. 

Achieving Precision in Tight Tolerances

Achieving tight tolerances in Deep Draw Stamping is crucial. Even small deviations can cause rework or part rejection. Material properties, tooling wear, and process variability can impact precision. Frigate employs advanced CNC machining and precision die technology to maintain exceptional tolerances. High-resolution inspection methods, such as coordinate measuring machines (CMM) and laser scanning, rigorously check each component against strict specifications. This process minimizes variability and enhances process repeatability. 

Elevating Aerospace Manufacturing with Deep Draw Stamping

One unique challenge in aerospace Deep Draw Stamping is achieving uniform wall thickness in complex geometries. Variations in material flow can lead to weak points, compromising structural integrity. To combat this, advanced finite element analysis (FEA) is utilized during the design phase. This technology simulates forming, allowing for precise tooling and blank shape adjustments. By optimizing these parameters, Frigate can ensure consistent wall thickness and eliminate weak points, resulting in high-strength components that meet the demanding requirements of the aerospace industry. 

Industries We Serve

What You Get

↓ 7-8%

OPS COST

↓ 2-3%

COGM

3X

Aggregation

↑ 25%

Machinery Utilisation

↓ 50%

Expedition

↑ 30%

Frigater Revenue

Streamlining Production for Faster Turnarounds

Cycle time significantly impacts the efficiency of Deep Draw Stamping. Extended production processes lead to increased costs and delayed deliveries. Factors such as lengthy tooling setups and slow material handling contribute to longer cycle times. Frigate utilizes advanced simulation techniques to optimize die design and enhance part geometry. This allows for quicker adjustments and efficient material flow during stamping. Automated inspection systems ensure quality without slowing down production. Implementing these strategies significantly reduces production timelines, resulting in faster turnarounds and increased operational efficiency. 

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What Our Customers Say about Frigate

21%

Faster Manufacturing

Having Doubts? Our FAQ

Check all our Frequently Asked Question

What role does material thickness play in the Deep Draw Stamping process?

Material thickness is crucial in Deep Draw Stamping, as it affects the part's ability to be drawn without failure. Thinner materials may deform easily but tear, while thicker materials require more force to draw, impacting tooling design and process parameters. 

How does the punch speed influence the quality of the stamped part?

Punch speed significantly impacts the quality of the stamped part. A higher punch speed can reduce cycle time but may increase friction and heat, causing material hardening or surface defects. Optimal speed is determined through testing to balance efficiency and part integrity. 

What are the benefits of using multi-stage deep drawing compared to single-stage processes?

Multi-stage deep drawing allows for complex shapes and tighter tolerances by progressively forming the part in several stages. This reduces the risk of material failure and enhances the final product's quality, as each stage can be optimized for specific geometry and wall thickness. 

How is springback managed in Deep Draw Stamping?

Springback occurs when the material partially returns to its original shape after forming. To manage this, precise calculations are made during the design phase, often incorporating factors like material properties and die geometry. Adjustments in die design can compensate for anticipated springback. 

What inspection methods are used to ensure part quality in Deep Draw Stamping?

Various inspection methods are employed, including automated optical inspection and laser scanning. These techniques provide detailed measurements of critical dimensions and surface quality. Advanced data analysis ensures parts meet strict specifications, reducing the likelihood of defects in production. 

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LOCATIONS

Global Sales Office

818, Preakness lane, Coppell, Texas, USA – 75019

Registered Office

23, 6th West Street, Balaji Nagar, Kattur,  Pappakuruchi, Tiruchirappalli-620019, Tamil Nadu, India.

Operations Office

9/1, Poonthottam Nagar, Ramanandha Nagar, Saravanampatti, Coimbatore-641035, Tamil Nadu, India. ã…¤

GENERAL ENQUIRIES

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