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Silicon Carbide Crucible for Metal Melting
Arc Shape Silicon Carbide Metal Melting Crucible Arc Shape Silicon Carbide Metal Melting Crucible Arc Shape Silicon Carbide Metal Melting Crucible

Arc Shape Silicon Carbide Metal Melting Crucible

SiC silicon carbide metal melting crucible is widely used in metallurgy and metalworking processes due to its ability to withstand high temperatures and its chemical inertness.

  • item no. :

    CS-THG-A001
  • Color :

    Black
  • Port :

    Shenzhen China, Express delivery
  • lead date :

    5-7 days
  • Material : Silicon Carbide

  • Purity : 90%

  • Shape : Multiple

  • Original Country : China

  • description

Arc Shape Silicon Carbide Metal Melting Crucible

High temperature SSiC sintered silicon carbide crucibles


Silicon Carbide Crucible's Features                                                                                                                   

1.High Temperature Resistance: Silicon carbide crucibles can withstand temperatures up to 1300°C and are ideal for high temperature applications such as melting and refining of metals. 

2.Long Service Life: Silicon carbide crucibles are corrosion and wear resistant, providing a longer service life than other types of crucibles, making them ideal for high production runs. 

3.High Strength: Silicon carbide crucibles offer superior strength and are resistant to cracking under extreme temperatures. 

4.High Thermal Conductivity: Silicon carbide is an excellent thermal conductor, allowing for fast and even heating.

5.Low Cost: Silicon carbide crucibles offer a cost-effective solution for high-temperature applications, as they are more economical than other crucibles.


Sic Crucible Applications                                                                                                                                       

1.Used in a variety of applications, including metal casting and melting, glass production, and pottery. In metal casting and melting,.

2.Used to hold and melt non-ferrous metals such as aluminum, copper, brass, gold, silver, and tin. The crucible is placed into the furnace and heated until the metal melts, then poured into a mold to form the desired shape. 

3.Used to melt silica sand at temperatures up to 2,500 degrees Fahrenheit. 

4.Used to make ceramic glazes. The crucible is heated to very high temperatures and then the ceramic glaze ingredients are added. 

5.Offer the advantages of high temperature resistance, good thermal shock stability, and excellent corrosion resistance. They are also available in a variety of sizes and shapes to meet specific application requirements.



V Shaped SiC Silicon Carbie Crucible Specification                                                                                         

Item

OD/ MM

ID/ MM

BD / MM

Height/MM

Purity

CS-THG-A001

225

175

160

230

90%

CS-THG-A002

320

265

220

500

90%

CS-THG-A003

340

260

220

400

90%

CS-THG-A004

360

300

220

430

90%

CS-THG-A005

400

340

230

500

90%

CS-THG-A006

400

345

240

640

90%

CS-THG-A007

450

390

240

450

90%

CS-THG-A008

450

390

240

580

90%

CS-THG-A009

460

385

240

500

90%

CS-THG-A010

450

394

280

650

90%

CS-THG-A011

465

400

240

610

90%

CS-THG-A013

530

465

280

570

90%

CS-THG-A014

500

430

240

500

90%

CS-THG-A015

500

425

330

560

90%

CS-THG-A016

530

460

330

530

90%

Arc shaped Metal Melting Crucible specification                                                                                                                                            

Item

OD / MM

ID / MM

BD / MM

Height/MM

(KG)

Purity

CS-THG-A072

121

97

83

154

2

90%

CS-THG-A073

165

135

100

180

3

90%

CS-THG-A074

185

155

120

220

5

90%

CS-THG-A075

218

172

135

200

7

90%

CS-THG-A076

239

199

165

292

9

90%

CS-THG-A077

240

190

175

270

15

90%

CS-THG-A078

272

240

183

320

17

90%

CS-THG-A079

296

248

189

366

20

90%

CS-THG-A080

320

270

210

390

25

90%

CS-THG-A081

340

280

200

400

28

90%

CS-THG-A082

355

295

200

530

38

90%

CS-THG-A083

320

270

210

390

25

90%

CS-THG-A084

340

280

200

400

28

90%

CS-THG-A085

355

295

200

530

38

90%

CS-THG-A086

395

335

230

483

40

90%

CS-THG-A087

425

365

230

550

47

90%

CS-THG-A088

460

400

260

610

57

90%

CS-THG-A089

474

414

270

650

63

90%

CS-THG-A090

492

432

280

690

69

90%


Silicon Carbide Crucible Test Standards                                                                                                             

1.Silicon carbide crucibles are tested according to a variety of standards, including ASTM C638, ISO 9001 and JIS R1702. 

2.These standards specify the requirements for the design, manufacture and performance of silicon carbide crucibles. 

3.The standards cover the physical and chemical characteristics of the crucibles, their performance in a variety of applications, and their compatibility with other materials. 

4.Additionally, these standards require that the crucibles are manufactured in accordance with accepted industry practices, and that they are tested for conformance to the applicable standards.


        

Use/Maintenance Methods                                                                                                                                  

The SiC silicon carbide crucible must be kept in a dry and ventilated place, preferably on a wooden carrier.Avoid placing the crucible directly on the brick, soil or cement ground. The crucible will be damaged by moisture, which will reduce the melting efficiency and service life of the crucible. In serious cases, the bottom will even fall off.

The service life of the crucible can be greatly extended by using the correct method of preheating the crucible.

(1) According to different types of crucible furnaces, when the crucible is used for the first time, the crucible should be preheated to about 200 ° C for 60-120 minutes without feeding, and dried for 60 minutes.The purpose is to volatilize the moisture inhaled on the surface of the crucible.Prevent bursting at the beginning of use.

(2) After preheating, the crucible should be heated to 800℃(about 2 hours) as soon as possible, and keep warm for 20~30 minutes, and then rise to or fall to the working temperature.The purpose is to quickly pass through the graphite crucible easy oxidation temperature region.

(3) The crucible usually does not need to be preheated again after this preheating, unless the crucible is damp again.



Crucible Packing and Shippment                                                                                                                          

CS’s Silicon Carbide products are carefully handled to minimize damage during storage and transportation and to preserve the quality of our products in their original condition.  

           


Requirements for Customization                                                                                                                        

1. If there are drawings, please send drawings (CAD,PDF, hand sketch), etc.   

2. Specify the size, quantity, thickness and other specifications.                      

3. Determine the processing technology (simple cutting, drilling, to map custom parts, grinding, milling saw cutting.

4. Pay according to the actual quotation.

Note: If the size requirements are particularly accurate, please explain to customer service. Because there are certain tolerances in normal process standards such as cutting, grinding and drilling, please explain in advance if there are precision requirements for irregular parts.



FAQ                                                                                                                                                                         

1.Q: What is a silicon carbide crucible? 

A: A silicon carbide crucible is a special type of ceramic vessel that is used for melting and refining metals and other materials at extremely high temperatures. It is made from a combination of silicon and carbon atoms and is extremely resistant to thermal shock and corrosion. The crucible is typically used in industries such as metallurgy, foundry and ceramic production. 

2.Q: What are the advantages of using a silicon carbide crucible?

A: Silicon carbide crucibles offer several advantages over other types of crucibles. They are highly resistant to thermal shock and corrosion, making them ideal for use in high temperature applications. They also have excellent thermal conductivity, which helps to ensure uniform melting and refining of metals. Additionally, the crucible is able to withstand very high temperatures without deforming or cracking. 

3.Q: How do you care for a silicon carbide crucible? 

A: To ensure optimal performance, it is important to properly maintain and care for your silicon carbide crucible. Be sure to clean the crucible after each use to remove any material residue or deposits. It is also important to inspect the crucible for any signs of wear or damage before each use. Store the crucible in a cool, dry place to prevent any damage from moisture or humidity.



The Art of Working with Silicon Carbide Crucibles: Tips and Techniques for Successful Crucible Use




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