Disadvantages of Aluminum Alloy Sand Casting Parts
In the sand casting process, a mix of sand and heat-reactive resin is deposited into a heated pattern. It is flexible in terms of working time and can produce thin wall sections of up to 4 mm. The process is typically used for large production volumes, and virtually all types of cast alloys can be poured into sand. Almost any alloy that is soluble in sand can be cast using this process.
Limitations of sand casting
The process is not always ideal, as it can result in dimensionally irregular parts with poor surface finish. The parts also suffer from porosity and shrinkage, and they may need further finishing to achieve their desired appearance. Despite the limitations of sand casting, many designers and manufacturers are satisfied with the end results. However, some disadvantages of aluminum alloy sand casting parts should be considered before proceeding.
The process is relatively simple, but the certified CNC machinists need to know how to work with aluminum alloy sand casting materials. Because of several stages of change, it is important to do prototypes before going for mass production. It is important to work closely with the design team to ensure the final result meets all your expectations. A company that specializes in the automotive and aerospace industries offers high-quality aluminum casting parts with quick turnaround and cost-effective pricing.
Cost of sand casting
Die-casting parts require a much larger investment than sand casting. A single die can cost upwards of $45,000, while 200 sand-cast parts can run as low as $18,000. Moreover, the tooling required to produce die-cast parts can take as long as twelve weeks, which makes them a more costly option overall. However, sand casting does have its advantages.
Besides being inexpensive, aluminum sand-casting offers many advantages. Compared to stamped parts, aluminum is one-third the weight, which reduces machining costs. The metal can be anodized, electroplated, or powder-coated. Aluminum alloys are also cheaper to produce because they can be coated. Sand-casting also allows for modification without requiring the creation of steel molds.
The cost of sand-casting tools is relatively low. Depending on the complexity of the part, a typical sand-cast pattern can cost between $500 and $7,500. A die-cast tool can cost anywhere from $7,500 to $75,000. Sand-casting costs can be higher than those of die-casting, but the process is cheaper than many other metal casting methods. In addition to low-cost die-casting, aluminum alloy sand casting is also cheaper than stainless steel and carbon steel.
Efficacy of sand casting process
The Efficacy of Aluminum Alloy Sand Casting Process can be enhanced by employing different metallic chills at various intervals of the sand casting process. The metallic chills have the ability to increase the fluidity of the alloy by decreasing the heat loss. A micro structural examination is also available in 2 steps. A micro structural examination of the finished aluminum casting will be helpful in determining whether the casting is sound and has no defects.
The sand mold consists of two core boxes, each with a cavity molded with a 3D plastic model. The mould is then filled with a shielding gas mixture to prevent oxidation. The magnesium alloy on pure Mg is more reactive than conventional alloys. The oil-containing mold sands failed to give the desired results. The cylindrical sample geometry reacted intensely with the molding sands, resulting in a discolored casting surface.
Cost of permanent mold casting
The cost of a permanent mold process is a significant factor to consider. Tooling and development are expensive for this type of process. However, it produces parts with better mechanical properties and finer grain structure than sand casting. Another benefit of permanent mold casting is that it can be reused, making it an ideal process for small and medium-sized castings. It can also produce parts with complex shapes and designs, and has improved surface finish.
Permanent molds offer many advantages over sand or investment casting. Cost per piece is considerably lower with permanent molds. Also, expendable cores offer the advantage of great design flexibility. And while permanent molds are not as flexible as sand castings, the final product will be stronger, lighter and have better fatigue life. The cost of permanent mold castings for aluminum alloy casting parts is determined by the complexity of the part and the complexity of the casting design.