Product Description

Merchandise Description:

 

Casting (metalworking)
    In metalworking, steel is heated until finally it gets to be liquid and is then poured into a mold. The mildew is a hollow cavity that contains the desired condition, but the mold also consists of runners and risers that allow the steel to fill the mould. The mildew and the metallic are then cooled till the metal solidifies. The solidified element (the casting) is then recovered from the mildew. Subsequent operations eliminate surplus substance caused by the casting approach (this sort of as the runners and risers).
                                                                                                                                                                                                                                                       

 

Why choices us?
 

  • In China, we have far more than 13 many years of expertise in processing foreign companies for international companies.
  • China company in HangZhou,not trade organization
  • Competitive price tag and good provider
  • ISO/SGS passed
  • Software: Automotive,health care system, electronics, toy, home furniture, industrial etc

Our Merchandise:

one. auto elements, classic car elements

two. machine parts, pump body housing, motor areas, cylinders, pistons, transmission housing.

three. cookware elements, kitchen ware elements.

4. medical products areas, housing, instrument housing, I beam, housing…and so forth. 

5. Bicycle and motocycle elements, sport tools parts, housings, handles, heat sinks.

Our Policy:

Innovation and developing in Technique

High stage of experience

Exceptional quality

On-time supply to client needs

Transport:

 

Product Specifications:
 
Material: Stainless steel,Alloy Steel,Brass,Copper,Aluminum,Aluminium alloy,Iron etc.
Dimension: According to the drawing or sample
Standard: DIN GB ISO JIS BA ANSI
Casting tolerance: IT5 – IT7,CT5-7
Production Process: Polish/Sand Blast/EDM/Milling/Texture/Grind/Pre-Treatment/Quenching/Lathe/Wire Cut/Annealing/Temper etc.
Machining tolerance: +/- 0.005mm,ISO2768-f,ISO-mk
Weight range: 0.1Kg-120Kg
Dimensions:  ≤1200mm×800mm×400mm
Surface finishment: Ra1.6-Ra3.2

###

  Typical Feasible
Shapes: Thin-walled: Complex
Solid: Cylindrical
Solid: Cubic
Solid: Complex
Flat
Thin-walled: Cylindrical
Thin-walled: Cubic
Part size: Weight: 1 oz – 450 ton
Materials: Metals
Alloy Steel
Carbon Steel
Cast Iron
Stainless Steel
Aluminum
Copper
Magnesium
Nickel
Lead
Tin
Titanium
Zinc
Surface finish – Ra: 300 – 600 μin 125 – 2000 μin
Tolerance: ± 0.03 in. ± 0.015 in.
Max wall thickness: 0.125 – 5 in.  0.09 – 40 in.
Advantages: Can produce very large parts
Can form complex shapes
Many material options
Low tooling and equipment cost
Scrap can be recycled
Short lead time possible
Disadvantages: Poor material strength
High porosity possible
Poor surface finish and tolerance
Seondary machining often required
Low production rate
High labor cost
Applications: Engine blocks and manifolds, machine bases, gears, pulleys
Product Specifications:
 
Material: Stainless steel,Alloy Steel,Brass,Copper,Aluminum,Aluminium alloy,Iron etc.
Dimension: According to the drawing or sample
Standard: DIN GB ISO JIS BA ANSI
Casting tolerance: IT5 – IT7,CT5-7
Production Process: Polish/Sand Blast/EDM/Milling/Texture/Grind/Pre-Treatment/Quenching/Lathe/Wire Cut/Annealing/Temper etc.
Machining tolerance: +/- 0.005mm,ISO2768-f,ISO-mk
Weight range: 0.1Kg-120Kg
Dimensions:  ≤1200mm×800mm×400mm
Surface finishment: Ra1.6-Ra3.2

###

  Typical Feasible
Shapes: Thin-walled: Complex
Solid: Cylindrical
Solid: Cubic
Solid: Complex
Flat
Thin-walled: Cylindrical
Thin-walled: Cubic
Part size: Weight: 1 oz – 450 ton
Materials: Metals
Alloy Steel
Carbon Steel
Cast Iron
Stainless Steel
Aluminum
Copper
Magnesium
Nickel
Lead
Tin
Titanium
Zinc
Surface finish – Ra: 300 – 600 μin 125 – 2000 μin
Tolerance: ± 0.03 in. ± 0.015 in.
Max wall thickness: 0.125 – 5 in.  0.09 – 40 in.
Advantages: Can produce very large parts
Can form complex shapes
Many material options
Low tooling and equipment cost
Scrap can be recycled
Short lead time possible
Disadvantages: Poor material strength
High porosity possible
Poor surface finish and tolerance
Seondary machining often required
Low production rate
High labor cost
Applications: Engine blocks and manifolds, machine bases, gears, pulleys

Agricultural Parts and How They Work

The term “agricultural parts” covers many different mechanical devices used in agriculture. Agricultural machinery includes power tools, tractors, and countless other farm implements. Aside from these, it also covers hand tools. Here are some common examples of agricultural parts. Read on to learn more. Below are some common parts and how they work. If you own a tractor, consider purchasing a new set of agricultural parts. Just-in-time delivery is an excellent option for a quick turnaround on parts and components.
agriculturalparts

Steel

Steel agricultural parts are used in the production of many types of agricultural machinery. They are used in tractors, combine harvesters, balers, mowers, and more. Because of the high wear resistance and tensile strength of steel, these parts require special properties. One such metal is Robalon. A short overview of this material is given below. To learn more about its benefits and application, read on. Here is a look at the qualities of Robalon.
Different steels are used for the housing of the Gearbox. Different manufacturers have different requirements. In addition to being lightweight and durable, steel agricultural parts must meet different material standards to perform their functions well. When choosing steel for your gearbox, keep these factors in mind. In addition to the weight and strength, you should also consider the type of gearbox. Gearbox housing is the first part that gets ruined in your tractor. If you buy a cheap steel housing, it will have poor quality.
Other benefits of steel include its resistance to chemical pesticides and its malleability. Steel also makes soil and dirt easier to wipe off. In addition to being corrosion-resistant, steel is also 100% recyclable. Its antimicrobial properties may also make it suitable for outdoor use. So, if you are looking for agricultural equipment parts, choose a steel farm machinery manufacturer. The benefits of steel agricultural parts are many. You can use them in the construction of various types of agricultural equipment.
Boron steel has many benefits in agricultural equipment. Boron steel is a good option for agricultural machinery parts, because of its high resistance to rust and corrosion. It is also very resistant to heat, which saves farmers a lot of time and money in replacing parts. In addition to its corrosion-resistant properties, boron steel also possesses great abrasion and heat resistance. It also is a good option for agricultural equipment that requires heavy loads.

Structural steel

Agricultural buildings made of structural steel are designed to hold livestock and agricultural equipment while remaining secure. These structures are lightweight and sturdy, offering a high level of thermal performance and insulation continuity. They are durable, sturdy, and rot/pest resistant, which makes them an excellent choice for many agricultural applications. Agricultural buildings made of structural steel can be easily customized, and you can choose from a variety of accessories, such as second-floor mezzanines, mansard systems, walk-through doors, and more. They can easily be altered to suit any renovation or change in business needs.
Today, high-strength steel is an excellent choice for structural parts in agricultural machinery. It allows agricultural equipment to withstand virtually any environmental condition, and its well-designed components increase reach and lifting capacity while maintaining strength and stability. As harvesters become more complex and cover more acres per hour, the need for reliable fabrication becomes increasingly more essential. In addition to harvesters, sprayers are a great example of tractors that make use of structural steel.
In addition to using structural steel for agricultural parts, agricultural tools are made from this metal, which reduces the construction time and waste by up to 30%. Many of these parts are made from structural steel, and a specialized company can provide you with the parts you need. For more information about industrial structural steel, please visit Benchmark Fabricated Steel or visit their website. There are many advantages of using steel in agricultural parts.
In addition to the benefits of using structural steel in agricultural applications, agricultural equipment can be built using aluminum alloys and other lightweight metals. Aluminum alloys, for instance, are lighter than steel, which is a great benefit in terms of reducing the weight of farm machinery and soil. Additionally, aluminum alloys are harder than steel, which makes them the ideal choice for dust-filled environments. Further, agricultural equipment can be designed with composite materials and can be made of aluminum or manganese.
agriculturalparts

Torsional dampers

If you’re in the market for a new torsional damper, the best solution might be a bolt-on unit. These units are based on steel spring damper technology, which is also used in clutch disks. They are resistant to temperature-induced aging processes. ZF’s solution, DynaDamp, utilizes the same technology as its Dual Mass Flywheel. There are several different sizes available to match the horsepower output of your tractor.
New regulations for tractors have increased demand for torsion control and dampers. Agricultural equipment, such as tractors, is being forced to use cleaner engines to reduce emissions. A torsional damper prevents vibration from spreading throughout the transmission and the rest of the vehicle. These parts can also come in straight spring and arc spring designs. Those with straight springs are the most common, while arc springs are used in agricultural applications.
Hydrodamp agricultural parts are designed to meet the technical demands of today’s tractors. Agricultural parts, such as clutch disks, require a high level of protection against torsional vibration. Hydrodamp torsional dampers reduce vibration in the power train, protecting engine components and reducing operator fatigue. Hydrodamp torsional dampers offer low cost and high-performance solutions that can handle any drivetrain application.
Voith Hydrodamp torsional vibration dampers provide hydraulic damping for drive train vibrations and isolation. These units are maintenance-free and can protect against overloads and extend the service life of all components. The hydrodamp has three series – engine torques up to 3,700 Nm; vehicle-specific; and application-specific. For the ultimate in performance and dependability, Voith Hydrodamp is the only choice.

Just-in-time delivery

Just-in-time delivery of agricultural parts has become a widely used practice throughout industries. In agricultural production, for example, inputs for implements were in trucks on the day of their delivery and would be delivered to the farm at precisely the right time. This process has become widespread, reducing the need for costly inventories and lowering production, storage, and purchase costs for end-users. Here are five examples of how it can help farmers and other businesses.
A typical tractor has over 1,700 components. Increasing competition among automakers has forced manufacturers to move toward just-in-time delivery of agricultural parts. However, this approach fails if a single part fails to deliver the desired results. Farmers have had problems with shaft breaks in their planters, for instance. By using just-in-time delivery, these dealers avoid the problems associated with a last-minute purchase and focus on making the equipment work properly.
A major challenge of this type of supply chain is predicting demand. While JIT delivery can significantly reduce costs, the difficulty of predicting demand is significant. Suppliers must be able to deliver parts in time, ensuring maximum profitability. Agricultural companies must ensure that their suppliers understand demand and have good relationships with their customers. In this way, the cost of inventory management is reduced. And a single, well-designed supply chain can reduce costs.
In order to implement just-in-time delivery, businesses must be able to identify what customers need and how quickly they can supply it. Without such a service, companies may face huge risks. They may have to sacrifice supply, certain products, or entire customer bases. These costs cannot be measured and are therefore unwelcome by many companies. However, JIT can help improve profitability and market share. A comprehensive logistics provider such as Hollingsworth will provide operational procedures and resources for implementing JIT in a business.
agriculturalparts

Precision-based tech

Agricultural production is increasingly relying on technology for the benefit of farmers and their crops. The underlying science behind precision farming uses computer software and sensors to detect and improve soil conditions. With nearly 475 million farm households around the world, precision agriculture is important, as many of these operations are small and lack resources. The technology is also relevant to farms in developed countries that employ large production systems. However, implementing precision farming may be too expensive for small farms.
The goal of precision agriculture is to increase crop productivity and efficiency while protecting the environment. The use of technology helps farmers make better decisions on when to plant their crops, which can improve yield and quality, as well as cut greenhouse gas emissions. By incorporating precision technology into farming, farmers can use data from the field to plan for the future. Precision agriculture can be used in large and small fields. Precision farming can also help farmers monitor and optimize soil conditions and apply fertilizer at the proper time.
Agricultural equipment must be able to communicate with each other. With the help of machine learning and artificial intelligence, companies can process billions of data points and find meaningful patterns and drivers. This technology is particularly suited to precision agriculture, as data points from the field can include a wide range of environmental factors, including water levels and soil conditions. When smart computer algorithms analyze all this data, they can make intelligent recommendations on crop yield and quality.
Using precision technology for agricultural operations is essential for maximizing crop yield and quality. It can save time and money by optimizing irrigation systems, minimizing crop damage, and improving production. Precision technology can also help farmers reduce the amount of resources used to produce a particular crop. A small farmer can increase the output of a crop while minimizing waste and maximizing profits. With the use of these technologies, farming can be more productive and environmentally sustainable.