YS COMPANY LIMITED

Sand Casting

Sand casting is a metal casting process where a mold made of sand is used to shape molten metal into a desired form. It's one of the oldest and most versatile casting methods, suitable for producing a wide range of metal parts, from small components to large industrial pieces.


Sand casting is widely used in industries such as automotive, aerospace, construction, and manufacturing due to its versatility, cost-effectiveness, and ability to produce complex shapes with relatively simple equipment and tooling.



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Why Using Sand Casting Service?

Sand casting services offer several advantages that make them a preferred choice for producing metal parts in various industries. Some of the key advantages include:

AdvantageDescriptions
VersatilitySand casting is versatile and can be used to produce a wide range of part sizes, shapes, and complexities. It is suitable for both small and large components, from simple to highly intricate designs.
Cost-EffectivenessSand casting is relatively economical compared to other casting methods, especially for low to medium volume production runs. The tooling costs are typically lower, and the process is well-suited for producing complex shapes without the need for expensive equipment.
Design FlexibilitySand casting allows for intricate designs and complex geometries, making it ideal for parts with irregular shapes, undercuts, and internal features. This flexibility in design enables engineers to optimize part performance and functionality.
Material VarietySand casting can be used with a wide range of metals and alloys, including ferrous and non-ferrous materials such as aluminum, brass, bronze, iron, and steel. This versatility in material selection allows manufacturers to choose the most suitable alloy for specific applications.
Short Lead TimesSand casting typically has shorter lead times compared to other manufacturing processes, making it suitable for projects with tight deadlines or urgent requirements. The process is relatively simple and can be scaled up or down to meet production needs quickly.
ScalabilitySand casting is easily scalable and can accommodate different production volumes, from prototype development to mass production. It is well-suited for both small batches and large-scale manufacturing, providing flexibility to adapt to changing demand.
Surface FinishWith proper mold design and finishing techniques, sand casting can achieve excellent surface finishes on cast parts. This reduces the need for additional machining or surface treatments, saving time and costs in the production process.
Proven ReliabilitySand casting is a well-established and reliable manufacturing process with a long history of successful applications across various industries. It offers consistent results and high-quality castings, providing confidence to manufacturers and end-users alike.


The advantages of sand casting services make them a preferred choice for producing metal parts in a wide range of industries, including automotive, aerospace, construction, and manufacturing.

How Does Sand Casting Work?

There are mainly 9 steps of sand casting process:


1. Pattern Creation: The process begins with the creation of a pattern, which is a replica of the final part to be cast. Patterns can be made from various materials such as wood, metal, or plastic. The pattern is typically slightly larger than the final part to accommodate shrinkage during cooling.


2. Mold Preparation: Two halves of a mold are created using the pattern. The mold is made of sand mixed with a binder to hold its shape. The pattern is placed in one half of the mold, and then the other half is positioned on top to create a complete mold cavity.


3. Pattern Removal: Once the mold is formed around the pattern, the pattern is removed, leaving behind a cavity in the sand mold that matches the shape of the desired part.


4. Core Placement (optional): For parts with internal features or cavities, sand cores may be inserted into the mold to create the desired shape.


5. Mold Assembly: The two halves of the mold are securely clamped together, often with the help of alignment pins or screws. Channels called gates and runners are formed in the sand to allow molten metal to flow into the mold cavity during pouring and to facilitate the escape of air and gases.


6. Pouring: Molten metal is poured into the mold cavity through the gating system. The metal is typically heated in a furnace to the appropriate temperature before pouring to ensure proper flow and casting quality.


7. Solidification: The molten metal fills the mold cavity and solidifies as it cools. The cooling rate can affect the microstructure and properties of the final casting.


8. Cooling and Shakeout: After the metal has solidified, the mold is allowed to cool before the casting is removed from the sand. The sand mold is typically broken away from the casting using vibration or mechanical methods in a process known as shakeout.


9. Finishing: The casting may undergo various finishing operations to achieve the desired surface finish, dimensions, and mechanical properties.



Applications of Sand Casting

Automotive
Heavy Machinery
Marine & Shipbuilding
Aerospace
Industrial Equipment
Oil and Gas
Railroad and Transportation
General Engineering and Manufacturing
Automotive
Automotive

Sand casting is extensively used in the automotive industry for producing engine blocks, cylinder heads, transmission cases, brake components, and other structural parts. Its flexibility allows for the production of both small and large automotive components economically.

Heavy Machinery
Heavy Machinery

Sand casting is employed in the production of heavy machinery and equipment components such as gears, pulleys, housings, and frames. Its versatility allows for the production of both small and large parts used in construction, mining, and manufacturing equipment.

Marine & Shipbuilding
Marine & Shipbuilding

Sand casting is used in the marine and shipbuilding industry for manufacturing components such as propellers, marine engine parts, shafts, and fittings. Its ability to produce large and corrosion-resistant parts makes it ideal for marine applications.

Aerospace
Aerospace

Sand casting is utilized in the aerospace industry for manufacturing critical components such as aircraft engine parts, turbine blades, and structural components. Its ability to produce complex shapes and its cost-effectiveness make it suitable for aerospace applications.

Industrial Equipment
Industrial Equipment

Sand casting finds applications in various industrial equipment, including pumps, valves, compressors, and hydraulic components. Its cost-effectiveness and ability to produce parts with complex geometries make it suitable for diverse industrial applications.

Oil and Gas
Oil and Gas

Sand casting is utilized in the oil and gas industry for producing components such as valve bodies, pipe fittings, manifolds, and drilling equipment. Its cost-effectiveness and ability to produce parts in various sizes and configurations make it suitable for oil and gas applications.

Railroad and Transportation
Railroad and Transportation

Sand casting is employed in the production of components for railroad and transportation equipment, including railcar parts, brake systems, couplings, and wheel hubs. Its ability to produce durable and high-strength parts makes it suitable for demanding transportation applications.

General Engineering and Manufacturing
General Engineering and Manufacturing

Sand casting is used in various engineering and manufacturing applications for producing components such as housings, brackets, flanges, and machine parts. Its versatility and cost-effectiveness make it a preferred choice for a wide range of industrial applications.

YSRAPID Sand Casting Materials

1

Gray Iron (Cast Iron): Gray iron is one of the most commonly used materials in sand casting due to its excellent castability, good machinability, and high damping capacity. It is suitable for applications requiring strength, wear resistance, and vibration absorption, such as engine blocks, brake components, and machine frames.

2

Ductile Iron (Nodular Iron): Ductile iron offers improved mechanical properties compared to gray iron, including higher tensile strength, ductility, and impact resistance. It is often used in applications requiring higher strength and toughness, such as gears, crankshafts, and hydraulic components.

3

Steel Alloys: Various steel alloys can be used in sand casting, including carbon steel, alloy steel, and stainless steel. Steel castings offer excellent strength, hardness, and corrosion resistance, making them suitable for a wide range of applications in automotive, aerospace, construction, and industrial equipment.

4

Aluminum Alloys: Aluminum alloys are lightweight, corrosion-resistant, and have good mechanical properties, making them popular choices for sand casting in automotive, aerospace, and consumer goods industries. Aluminum castings are used for components such as engine parts, transmission housings, and structural components.

5

Brass and Bronze Alloys: Brass and bronze alloys are often used in sand casting for their excellent corrosion resistance, thermal conductivity, and aesthetic appeal. They are commonly used in plumbing fixtures, decorative hardware, marine components, and musical instruments.

6

Magnesium Alloys: Magnesium alloys are lightweight and have high strength-to-weight ratios, making them attractive for applications requiring weight reduction and high-performance properties. They are used in aerospace components, automotive transmission cases, and electronic housings.

7

Zinc Alloys: Zinc alloys offer good castability, dimensional stability, and corrosion resistance, making them suitable for casting intricate shapes and thin-walled parts. They are commonly used in automotive components, electrical connectors, and decorative hardware

8

In Sum: The choice of material depends on factors such as mechanical properties, corrosion resistance, cost, and specific application requirements. Sand casting offers the flexibility to work with a wide range of metals and alloys, allowing manufacturers to choose the most suitable material for their needs.

Get in Touch With YS Rapid
Get in Touch With YS Rapid

Upload your 3D and 2D drawings to us, and a quotation will be provided to you within 24 hours. Also our sales engineer will contact you directly regarding your rapid prototype and cnc machinery parts quote to ensure you have received the quotation and to answer your questions.


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