Botou Casting Machinery Processing Co., Ltd, the illustrious successor of "Cangzhou Metallic Crafts Co., Ltd." Founded in 2008, Botou Casting Machinery Processing Co., Ltd stands as a paragon of excellence in the fields of Casting, Forging, and Stamping, catering to a diverse array of industries on a global scale. Revered for its commitment to punctual delivery and cost-effectiveness, our company specializes in crafting forging parts with unmatched precision through the advanced closed die method. Every component is subject to exhaustive inspection and stringent testing, ensuring adherence to the most rigorous quality standards. As a leading manufacturer and exporter, we are maestros in the art of Hot Forging, adept in both open die and closed die techniques, as well as Cold Forging. Our extensive expertise encompasses a wide variety of forging components that are vital to industries including mining, construction, automotive, and oil & gas, among numerous others.

Guardrail brackets are an essential component of road safety. They are designed to provide a barrier between vehicles and obstacles, such as trees, buildings, and other vehicles. Guardrail brackets are typically made of steel and are installed along the sides of roads and highways to prevent vehicles from veering off the road and causing accidents.
Guardrail brackets are one of the main supporting safety devices of guardrails. They are installed at the dangerous corner of the slope and the dangerous section of the road to ensure the safety of the driver and passengers. Guardrail brackets are usually made of high-strength aluminum alloy or stainless steel or iron, and are installed on the roadside to support and fix the guardrail. The bracket is installed on the surface of the road or embedded in the ground, and is fixed by screws or anchor bolts. The bracket is usually
Guardrail brackets are an important component of road safety because they help to prevent accidents. When a vehicle collides with a guardrail, the guardrail absorbs the impact of the collision, reducing the severity of the accident. Without guardrail brackets, the guardrail would not be able to withstand the impact of a collision, and the vehicle could potentially veer off the road and cause a more serious accident.
There are several types of guardrail brackets, each designed for a specific purpose. The most common types of guardrail brackets include:
1. Standard Guardrail Bracket - This is the most common type of guardrail bracket and is used to attach a guardrail to a post or other support structure.
2. End Terminal Guardrail Bracket - This type of bracket is used at the end of a guardrail to provide a smooth transition between the guardrail and the end of the road.
3. Bridge Rail Bracket - This type of bracket is used to attach a guardrail to a bridge rail.
4. Median Barrier Bracket - This type of bracket is used to attach a guardrail to a median barrier.
5. Cable Barrier Bracket - This type of bracket is used to attach a guardrail to a cable barrier.

The material of cast iron fence support is using cast iron with carbon content of 2.5% ~ 3.5% , which also contains 1% ~ 3% silicon, as well as manganese, phosphorus, sulfur, nickel, chromium, molybdenum, aluminum, copper, boron, vanadium and other elements, after high-temperature melting into iron, secondary high-temperature melting and casting to form ductile iron. The graphite of ductile iron is spherical. The graphite precipitated from the spheroidized gray cast iron is spherical, which is called nodular iron for short. Carbon is present wholly or largely in a free form of spherical graphite, and therefore breaks into a silver-gray, sand-molded, cast, semi-finished, sandblasted, spray-painted cast steel products, with the corresponding heat-resistant, wear-resistant, resistant strength. The bridge guardrail support has the advantages of bright color, external lubrication, strong corrosion resistance, non-fading, non-cracking, non-brittle and so on. It has become highly decorative, the use of a wide range of guardrails, in the road and beautification played an important role.

Comparison of cast aluminum guardrails and iron. Anticorrosion ability is different: aluminum balustrades do not rust, do not change color, corrosion resistance is strong; iron balustrades are easy to rust in the open air. Different weight: aluminum balustrades are thick and heavy; iron balustrades are light and flexible. Different prices: aluminum balustrades are more expensive.

For Guardrail bracket,we most produced are with paint or powder coating on the surface to protect.This way can avoid rust and save cost for customer.Blue color paint is much more regular during projects. Each color we used is accoding customer's request.

To elevate our position as a leader in the industry and enhance our technological capabilities, Botou Casting Machinery Processing Co., Ltd is boldly integrating the latest state-of-the-art automated forging equipment into its operations. By adopting automation, our facility has revolutionized multiple stages of the forging process, dramatically reducing the dependency on manual labor. This strategic initiative ensures seamless documentation, comprehensive analysis, and swift processing of production data. The outcome? A groundbreaking production line that achieves outstanding efficiency, exceptional flexibility, and revolutionary advancements in manufacturing.

We stand ready and equipped to manufacture any metal material such as iron, aluminum, steel, and brass with unmatched precision and expertise. Our unwavering dedication to quality ensures that you receive the highest caliber products, perfectly customized for your distinct applications and needs.

Our commitment to outstanding service shines through in our packaging solutions, where we meticulously encase each valuable product in sturdy, custom-crafted wooden cases. This attention to detail ensures your order arrives in immaculate condition. We are also highly flexible, ready to embrace any specific packaging requests from our customers, personalizing each package to meet your distinct requirements. accommodate them with enthusiasm and unmatched attention to detail. Our dedication to absolute quality extends far beyond just packaging; it encompasses every aspect of our service. We oversee the entire process with precision-beginning with your initial consultation and seamlessly continuing through to the shipping phase. Our efficient operations ensure your order is dispatched within an exceptionally swift timeframe of just 30 days. We meticulously manage every logistical detail, guaranteeing a smooth and timely delivery to your chosen port, irrespective of your global location.

1: What information does the quotation need?

Pls. offer your drawings and/or samples, quantity and packing's requirements.
2: What's lead time for samples and products?

Lead time for samples: 30-70days depend on the structure of the part and other requirements on heat treatment, machining, surface
treatment and so on.
Mass production lead time: 35-70days depend on products' characteristics and quantity.
3: What is the requirement on payment?

Tooling Cost:100% T/T advanced
Payment for the Order:30% deposit,70% to be paid before shipment.
4: What are surface treatments available?

Powder coating, Shoot Blasting, Painting, Polishing, Acid Pickling, Anodizing, Zinc Plating, Hot-dip Galvanizing, Electrophoresis,
Chrome Plating
5: What is the packing?

Normal buck packing suitable for shipment by sea and by air.
We also organize packing according to customers' requirements.

For centuries, forging has been a cornerstone in metalworking, renowned for its unrivaled efficiency and effectiveness. This timeless technique masterfully shapes raw metal without the need to melt it. Instead, the metal remains solid as skilled artisans expertly employ techniques like hammering, rolling, or pressing for precise shaping. Each forging method offers unique benefits, but all share the fundamental principle of heating metal to high temperatures, allowing for effortless and accurate shaping.

Compared to other metalworking techniques like casting, forging stands out by creating components with superior physical properties, such as outstanding tensile strength and cost efficiency. These benefits stem from the refinement of the metal's grain structure. Forging, which avoids melting the material, uses percussive or compressive forces to direct the grain to follow the flow of the final component. This process results in parts that are immensely stronger than those made through machining or casting.

CMC Forge proudly extends these exceptional forging advantages to clients across various industries. We offer an extensive array of expert forging services, meticulously tailored to satisfy a wide spectrum of application needs.

THE INTRICATE FORGING PROCESS

The forging process is composed of numerous subtypes, leading to variations in the product shaping steps. Nonetheless, most forging processes align with a similar overarching framework.

• The heart of forging lies in utilizing dies to compress and expertly shape metal, making the choice of tools pivotal to achieving the desired form. Often, custom die designs are crafted to ensure the final product conforms to precise specifications. For extensive production runs, this may involve creating and deploying multiple dies for tasks such as flattening, forming, or cutting.
• Upon finalizing the planning and toolmaking phases, the actual artistry of metalworking commences. Initially, the workpiece, or billet, is precisely cut to size. It is then heated to the ideal temperature, priming it for skillful forming.
• At this stage, the forging methods diverge. Depending on the chosen technique, the billet may be heated and pressed between die sets or situated within a molded cavity for compression. Alternatively, in cold forging, the craftsman deftly manipulates the billet at ambient temperature using hammers.
• Ultimately, certain finishing touches may be essential. For example, some dies might yield excess material, known as flashing, which must be meticulously trimmed to ensure a pristine finish.