Payment & Shipping Terms:
|Material:||1020,1035,1045 Carbon Steel||Process:||Drop Forging Process|
|Machining:||CNC Machining||Surface:||Natural Color|
|Packing:||Plywood Crate||Heat Treatment:||None|
forged metal parts,
steel forging parts
Machining Forged Parts Lifting Hook Forging Eye Bolt Press Forging Products
Product Description and Process
Hot Forging Die Forging Process Carbon Steel Lifting Hook Forging Eye Bolt Forging Parts
Production process: metal hot forging process
Machining process: CNC machine, machining center, lathe, mill machine, drill machine, etc.
Surface treatment process: paint coating, electrophoretic coating, electrogalvanizing coating, black oxide coating, powder coating, etc.
Product Material and Uses
Normally produce with low carbon steel, medium carbon steel, low alloy steel, such as 1020 steel, 1035 steel, 1045 steel, 16Mn, Q235, Q345, A105, 20MnMo, 35Crmo, 40Mn2,42CrMo, etc.
The steel forging products are widely used for auto-car parts, truck parts, train parts, vehicle components, construction machinery components, other machinery components, etc.
Why use forgings?
Forging offers uniformity of composition and structure. Forging results in metallurgical recrystalisation and grain
refinement as a result of the thermal cycle and deformation process. This strengthens the resulting steel product particularly in terms of impact and shear strength.
Forged steel is generally stronger and more reliable than castings and plate steel due to the fact that the grain flows of the steel are altered, conforming to the shape of the part.
The advantages of forging include:
Generally tougher than alternatives
Will handle impact better than castings
The nature of forging excludes the occurrence of porosity, shrinkage, cavities and cold pour issues.
The tight grain structure of forgings making it mechanically strong. There is less need for expensive alloys to attain high strength components.
The tight grain structure offers great wear resistance without the need to make products “superhard” We have found that, on a blank HRC 38-42 forged grinder insert wear/wash is about the same as a high alloy HRC 46-50 cast grinder insert. The difference being a HRC 46-50 casting does not have the ductility to handle high impact grinding.
Types of Forging Processes
There are basically four methods (or processes) to make a forged part.
1. Impression Die Forging
2. Cold Forging
3. Open Die Forging
4. Seamless Rolled Ring Forging
Impression Die Forging
Impression die forging pounds or presses metal between two dies (called tooling) that contain a precut profile of the desired part. Parts from a few ounces to 60,000 lbs. can be made using this process. Some of the smaller parts are actually forged cold.
Commonly referred to as closed-die forging, impression-die forging of steel, aluminum, titanium and other alloys can produce an almost limitless variety of 3-D shapes that range in weight from mere ounces up to more than 25 tons. Impression-die forgings are routinely produced on hydraulic presses, mechanical presses and hammers, with capacities up to 50,000 tons, 20,000 tons and 50,000 lbs. respectively.
As the name implies, two or more dies containing impressions of the part shape are brought together as forging stock undergoes plastic deformation. Because metal flow is restricted by the die contours, this process can yield more complex shapes and closer tolerances than open-die forging processes. Additional flexibility in forming both symmetrical and non- symmetrical shapes comes from various preforming operations (sometimes bending) prior to forging in finisher dies.
Part geometry's range from some of the easiest to forge simple spherical shapes, block-like rectangular solids, and disc-like configurations to the most intricate components with thin and long sections that incorporate thin webs and relatively high vertical projections like ribs and bosses. Although many parts are generally symmetrical, others incorporate all sorts of design elements (flanges, protrusions, holes, cavities, pockets, etc.) that combine to make the forging very non-symmetrical. In addition, parts can be bent or curved in one or several planes, whether they are basically longitudinal, equidimensional or flat.
Most engineering metals and alloys can be forged via conventional impression-die processes, among them: carbon and alloy steels, tool steels, and stainless, aluminum and copper alloys, and certain titanium alloys. Strain-rate and temperature-sensitive materials (magnesium, highly alloyed nickel-based superalloys, refractory alloys and some titanium alloys) may require more sophisticated forging processes and/or special equipment for forging in impression dies.
WHAT DO WE OFFER?
We are the forging parts solutions provider. The types of forgings we produce can range from a fraction of 0.5 pound up to 350 lbs. Our capabilities in materials include multiple grades and types of metals, depending on the end use. Carbon, alloy and stainless steels, as well as aluminum, brass and titanium can all be forged. We also offer a range of additional services, allowing us to stay competitive and directly supply finished product to our customers.
WHY Choose US?
We are a comprehensive forging solutions provider committed to excellence in everything we do. In addition, we are ISO 9001 certified. Our engineering team utilizes various computer modeling techniques and the latest technological capabilities, as well as extensive physical testing. We offer our partners a dependable link in their supply chain by constantly focusing on quality, short lead times and competitive pricing. Each forging, no matter how complex, is also backed by our ongoing customer service and expert engineering.
Contact Person: Mr. James Wang
Tel: +86 13213152686