Barana Rapid Technology Limited Company Profile

Since 2015, our expertise in the prototyping and production industry has aided both start-ups and established brands in crafting prototypes and products that stand out in the global market. Our commitment to quality and precision is reflected in our advanced machinery and the dedicated team of professionals who work diligently to deliver your products on time. We offer rapid prototyping services at competitive prices, ensuring you receive parts with exceptional precision through cutting-edge manufacturing processes such as CNC machining, 3D printing, vacuum casting, and sheet metal fabrication—all within short lead times.

With precision CNC machining services, Barana Rapid is your ideal partner to create precision machined prototypes and parts. Our standard CNC machining tolerances for metals is ISO 2768-f and for plastics is ISO 2768-m. We can also achieve special tolerances as long as you indicate your requirements for your drawing.

We also provide low-cost manufacturing of high-quality plastic parts. Our vacuum casting services offer short-cycle solutions for creating high-quality prototypes and low-volume production parts. Vacuum casting, or urethane casting, is a method that utilizes a silicone mold and a 3D printed master to produce vacuum-cast parts with consistent performance and production-grade quality. This technology does not require a costly initial investment, enables flexible and economical production, and hardens thermoplastic polyurethane in silicone or epoxy molds. The outcome is a vacuum-cast part that retains the shape of the original master model. The final dimensions of a vacuum-cast part are determined by the master model, the part's geometry, and the selected material.

Our sheet metal fabrication factory offers top-tier custom services, leveraging extensive capabilities in sheet metal stamping, cutting, bending, welding, precision CNC machining, and assembly to deliver superior quality parts. NOBLE's manufacturers employ cutting-edge technology and skilled engineers to guarantee sheet metal parts of unmatched quality, precision, and reliable performance.

Barana Rapid boasts over a decade of expertise in small-batch manufacturing, backed by a stellar team and robust suppliers to fulfill all your small-batch production requirements. Leveraging our extensive experience in small batch molding and our team of exceptional engineers, we are committed to efficiently managing all your small batch machining projects. Our strong supply chain and state-of-the-art equipment for various manufacturing technologies enable us to execute with precision. We guarantee that our wholesale prices will be competitive, we will uphold stringent quality standards, aid clients in design optimization, select the most suitable CNC processing techniques, minimize costs, and facilitate swift mass production. This ensures the delivery of cost-effective and high-precision products to you.

Regardless of the manufacturing process employed, high-quality surface finishing services can enhance both the appearance and functionality of your components. We provide a range of superior metal, composite, and plastic surface finishing services to realize the prototype or component you envision.

Our Goal is to continuously supply affordable high-quality prototypes and custom low-volume products for production intent. Our business model is based upon providing cost effective solution that benefits customers at all stages of their product development. Our biggest asset is our customer base, which has grown rapidly through customer’s word-of-mouth around the world; amongst them, it covers from independent inventors or designers to large scale Industrial, Commercial, Medical, Automotive and even Aerospace companies.

Rapid prototyping, also known as rapid prototyping and manufacturing (RP&M) or simply prototyping, is a set of techniques and processes used to create physical models, prototypes, or small-scale production parts quickly and efficiently. It enables designers, engineers, and innovators to visualize and test their ideas, validate designs, and iterate rapidly before moving into full-scale production.

The traditional manufacturing process involves multiple steps, including designing, tooling, and manufacturing, which can be time-consuming and expensive. Rapid prototyping streamlines this process by using computer-aided design (CAD) data and specialized manufacturing technologies to produce physical prototypes directly from digital models.

The core principle of rapid prototyping is the ability to transform virtual designs into tangible objects in a fraction of the time compared to conventional manufacturing methods. This accelerated timeline allows for faster feedback loops, enabling designers and engineers to refine their designs, identify flaws, and make necessary adjustments promptly.

Rapid prototyping encompasses various technologies and techniques, including:

1. Additive Manufacturing (3D Printing): Additive manufacturing builds objects layer by layer using materials such as plastics, metals, ceramics, or composites. It is one of the most widely used rapid prototyping processes, offering versatility, customization, and the ability to create complex geometries.

2. CNC Machining: Computer Numerical Control (CNC) machining involves using computer-controlled machines to remove material from a solid block or sheet to create precise parts. It is suitable for producing functional prototypes and end-use parts from a wide range of materials.

3. Laser Cutting: Laser cutting uses a focused laser beam to cut or engrave materials, typically flat sheets. It allows for quick and precise fabrication of components for prototyping purposes.

4. Rapid Tooling: Rapid tooling techniques enable the production of molds, dies, or tooling inserts quickly and cost-effectively. These tools are used for injection molding, casting, or other manufacturing processes.

5. Vacuum Casting: Vacuum casting involves creating silicone molds from a master pattern and then pouring liquid resin or other materials into the molds. It is used to produce small batches of prototypes with properties similar to the final product.

6. Sheet Metal Prototyping: Sheet metal prototyping involves cutting, bending, and forming thin sheets of metal to create prototypes or low-volume production parts. It is commonly used in industries such as automotive, aerospace, and consumer electronics.

The benefits of rapid prototyping include reduced development time, cost savings, enhanced design flexibility, and the ability to detect and correct design flaws early in the product development cycle. It also allows for better communication and collaboration among team members and stakeholders by providing tangible models for visual evaluation and feedback.

Rapid prototyping finds applications in various industries, including automotive, aerospace, healthcare, consumer products, architecture, and more. It has revolutionized the product development process by accelerating innovation, fostering creativity, and enabling iterative design improvements.

As technology continues to advance, new rapid prototyping techniques and materials are being developed, further expanding the possibilities for rapid and efficient product development.