High Temperature Melting Furnace For Precious Metals Precious Metal Melting Furnace

Brand Name:Shaanxi Chengda

Certification:ISO 9001

Model Number:3000KVA

Minimum Order Quantity:≥1

Delivery Time:2 months

Payment Terms:L/C,D/A,D/P,T/T,Western Union,MoneyGram

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Shaanxi CHENGDA Industry Furnace MAKE Co., Ltd.

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Address: Room 1201, Greenland Blue Ocean Building, Zhanba Yi Road, Yanta District, Xi'an City, Shaanxi Province, China

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Introduction to Precious Metal Melting Electric Furnaces

Precious metal melting electric furnaces are specialized high-temperature melting equipment designed for gold, silver, platinum, palladium, rhodium, and other precious metals and their alloys. Focusing on the three core requirements of "low loss, high purity, and high efficiency", they are widely used in jewelry processing, precious metal recycling, gold extraction from electronic waste, advanced alloy preparation for aerospace, laboratory R&D, and other fields. Through precise temperature control, atmosphere regulation, and efficient heating technology, they achieve rapid melting, homogenization of composition, and low-loss forming of precious metals, serving as core equipment in precious metal processing and resource utilization.

Core Features

Low Loss Design: Tailored to the high-value nature of precious metals, the furnaces adopt inert gas (Ar/N₂) protection or vacuum environments, combined with special crucibles (graphite, quartz, zirconia, etc.). This design can control the loss of Au/Ag below 0.1% and that of platinum-group metals such as Pt/Pd to ≤0.5%, minimizing the loss of precious metals.
High Purity Guarantee: The furnace body is made of high-temperature resistant and low-pollution materials, equipped with a precision temperature control system (accuracy ±5℃) to avoid the introduction of impurities. Some high-end models support vacuum melting, which can effectively remove gaseous impurities (H₂, O₂, N₂) and produce high-purity billets with no pores and uniform composition.
High Efficiency and Flexibility: Mainstream models adopt medium-frequency induction heating technology, featuring fast heating speed (3-15 minutes per furnace) and adapting to different production capacity requirements from 0.1kg to 50kg. They support batch small-scale production and continuous operation, capable of melting pure metals, alloys (such as K-gold, platinum-iridium alloys, silver-copper alloys), and precious metal waste.
Safety and Environmental Protection: Equipped with water cooling systems, anti-splashing devices, emergency shutdown interlocks, and special flue gas purification equipment, the furnaces can efficiently collect metal dust, avoid environmental pollution and potential safety hazards, and comply with industrial environmental protection and safe production standards.

Main Types and Application Scenarios

Furnace Type	Core Principle	Application Scenarios	Key Advantages
Medium-Frequency Induction Melting Furnace (Crucible Type)	Electromagnetic induction generates eddy currents to heat metals	Jewelry processing, precious metal recycling, small-to-medium batch ingot casting	Fast melting and high efficiency, precise temperature control, tiltable pouring, cost-effective
Vacuum Induction Melting Furnace (VIF)	Induction heating in a vacuum environment to isolate air	High-purity alloys, platinum-group metals, aerospace materials, laboratory R&D	Extremely low oxidation loss, removal of gaseous impurities, suitable for high-end scenarios
Resistance Crucible Furnace	Radiation heating via resistance wires/silicon carbide rods	Laboratory small-sample testing, fire assay analysis, micro-precious metal melting	Simple structure, stable temperature control, low maintenance cost
Arc Melting Furnace	Direct heating of metals via arc discharge	High-melting-point platinum-group metals, large-scale alloy ingots	Maximum temperature up to 2500℃, suitable for high-melting-point precious metals

Core Application Fields

Jewelry and Accessories: Melting and pouring of K-gold, platinum, and silver jewelry, supporting personalized design and mass production;
Precious Metal Recycling: Extraction and regeneration of Au, Ag, Pt, and Pd from electronic waste, waste jewelry, and industrial waste residues;
High-End Manufacturing: Preparation of precious metal alloys (such as platinum-rhodium thermocouple wires, gold alloy contacts) required for aerospace, electronic components, and medical equipment;
Scientific Research: R&D, composition optimization, and performance testing of precious metal materials in universities and research institutes.

Parameters of Precious Metal Arc Furnaces

Precious metal arc furnaces are characterized by vacuum/inert atmosphere, water-cooled copper crucibles/copper molds, and arc heating. The key parameters prioritize melting capacity, vacuum/atmosphere conditions, power supply, and cooling system, while balancing metal loss and safety. Below is a general parameter system and typical models for easy selection and comparison.

Core Parameter System (General)

Parameter Category	Key Indicators	Typical Range	Notes
Melting Capacity	Single Furnace Weight	0.05–10 kg (Laboratory/Small-to-Medium Batch)	Determined by the density of precious metals and crucible size
Heating & Power Supply	Arc Current/Voltage	200–1200 A; 15–45 V	Power matching for rapid arc striking
Temperature & Atmosphere	Maximum Temperature/Temperature Control	Up to 3000+℃; ±10 ℃	Vacuum/Ar/He atmosphere to reduce oxidation loss
Vacuum Performance	Ultimate Vacuum Degree	5×10⁻⁴–2×10⁻³ Pa	Molecular pump set required; pumping speed must match leak rate
Cooling System	Water Pressure/Flow Rate/Water Temperature	0.2–0.4 MPa; On-demand matching; ≤35 ℃	Water-cooled furnace body/electrodes/copper mold with interlock alarm
Structure & Operation	Crucible/Mold	Water-cooled copper crucible/copper mold (replaceable)	Suitable for different shapes and batch sizes
Safety & Environmental Protection	Interlock/Dust Removal	Emergency shutdown, anti-splashing device, flue gas purification	Compliance with regulations and personnel protection

Typical Model Parameters (Laboratory/Small-to-Medium Batch)

Model	Single Furnace Weight	Ultimate Vacuum	Maximum Current	Power Supply	Cooling System	Application Scenarios
Laboratory Vacuum Arc Furnace (Small-Scale)	50–100 g	≤5×10⁻⁴ Pa	550 A	380 V 3PH 50 Hz	Water cooling with interlock alarm	Platinum-group metals, alloy R&D, small samples
Multi-Station Vacuum Arc Furnace	80 g/station (multi-station)	≤5×10⁻⁴ Pa	800 A	380 V 3PH 50 Hz	Water-cooled copper electrodes/crucible	Precious metal waste recycling, small-batch ingot casting
Industrial-Grade Vacuum Arc Furnace (Small-to-Medium Batch)	1–10 kg	≤2×10⁻³ Pa	1200 A	380 V 3PH 50 Hz	Water cooling system (flow rate on-demand)	Precious metal alloy ingot casting, recycling and purification

Key Parameter Explanations

Melting Capacity: Calculated based on the actual density of precious metals and effective crucible volume, with a 10–20% margin reserved to prevent overflow.
Vacuum/Atmosphere: Vacuum + high-purity Ar/He is preferred, reducing Au/Ag loss to below 0.1% and platinum-group metal (e.g., Pt/Pd) loss to ≤0.5%.
Power Supply & Current: Current determines arc power and heating rate; voltage matches electrode spacing to ensure stable arc striking and uniform heating.
Cooling System: Water pressure and flow rate must meet the heat dissipation requirements of the furnace body, electrodes, and copper mold; water temperature interlock prevents equipment damage due to overheating.
Safety Interlock: Emergency shutdown, water cooling fault alarm, anti-splashing device, and observation window protection are essential configurations.

Selection Recommendations

Small-Batch R&D/Samples: Prioritize small-scale vacuum arc furnaces, focusing on low vacuum degree, rapid arc striking, and replaceable copper molds to control metal loss and gaseous impurities.
Small-to-Medium Batch Recycling/Ingot Casting: Choose multi-station models equipped with inert gas protection and flue gas purification to balance efficiency and environmental friendliness.
High-Melting-Point Platinum-Group Metals: Adopt high-vacuum and high-current designs with water-cooled copper crucibles to ensure complete melting and uniform composition.

If needed, I can provide a customized parameter list and equipment selection comparison based on your single furnace weight, target metal loss rate, alloy type, and on-site conditions.

High Temperature Melting Furnace For Precious Metals Precious Metal Melting Furnace

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