High Temperature Vacuum Cvd Synthetic Diamond Making Machine Tube Furnace for Laboratory Research

Name: High Temperature Vacuum Cvd Synthetic Diamond Making Machine Tube Furnace for Laboratory Research
Brand: Alibaba
SKU: 62062536587_1
Price: 1980.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Diamond Synthesis: Enables Chemical Vapor Deposition (CVD) to produce high-quality synthetic diamonds under vacuum conditions, capable of reaching temperatures up to 1200°C.
High-Temperature Processing: Designed for material science applications such as heat treatment, sintering, and annealing in controlled environments.

Key features

1. Corrosion-Resistant Stainless Steel Construction

With a corrosion-resistant stainless steel body, you can ensure structural integrity and longevity in high-temperature environments, outperforming models with inferior materials*.

2. Programmable Digital Control Panel

With a touchscreen interface and multi-program presets, you can customize temperature and time parameters for precise, repeatable processes, unlike non-programmable alternatives*.

3. Industry-Leading Heat Capacity

With a maximum temperature of 1200°C, you can achieve ~30% higher heat capacity than standard tube furnaces, enabling advanced applications like CVD synthetic diamond synthesis*.

4. Laboratory-Specific Versatility

Designed for research environments, you can conduct high-temperature experiments (e.g., material sintering, annealing) with minimal downtime, ideal for both small-scale trials and continuous operation*.

5. Safety-Certified Design

Equipped with CE and ISO safety certifications, you can ensure compliance with international standards for high-temperature equipment, prioritizing user safety over non-certified models*.

Product details

The High Temperature Vacuum CVD Synthetic Diamond Making Machine Tube Furnace is a robust laboratory-grade heating system designed for advanced material synthesis, particularly in high-temperature environments. Built with corrosion-resistant stainless steel and featuring programmable digital controls, it enables precise temperature regulation up to 1200°C, ideal for applications like synthetic diamond production, heat treatment, and material sintering.

Technical specifications

Feature	Specification	Application Scenario
Material	Stainless steel construction	Withstands corrosive and high-temperature environments
Max Temperature	1200°C	Achieve precise synthetic diamond synthesis
Control System	Programmable digital interface	Customizable heating/cooling cycles for R&D
Vacuum Capability	High-vacuum chamber (noted in title)	Enables CVD (Chemical Vapor Deposition) processes
Safety Features	Integrated vent and interlock system	Safely manage high-temperature gases and fumes

Customization guide

Adjustable vacuum pressure levels and temperature ramp rates can be tailored to meet specific material synthesis requirements, such as optimizing diamond growth rates or reducing thermal stress in delicate samples.

Get inspired

This furnace empowers researchers to explore cutting-edge material science. Whether synthesizing diamonds for industrial tools or testing high-temperature composites, its precision and durability make it a cornerstone for advanced laboratory workflows.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Max Temperature	1000°C	1100°C	1200°C
Vacuum Pressure	1x10⁻³ Torr	5x10⁻⁴ Torr	1x10⁻⁵ Torr
Control System	Basic PID	Enhanced PID + Wi-Fi	AI-optimized PID
Safety Features	Basic vent	Dual interlock	Auto-shutdown + Pressure Monitoring

Supplier's note

Technical Breakthroughs:
- AI-optimized PID Control (Pro Model): Reduces temperature stabilization time by 20% compared to traditional PID systems.
- Ultra-high Vacuum (Pro Model): Achieves 1x10⁻⁵ Torr, enabling defect-free diamond crystal growth.
- Auto-shutdown Safety (Pro Model): Detects pressure fluctuations 30% faster than industry standards, preventing thermal runaway.
Version Selection Guide:
- Base Model: Ideal for basic lab heating tasks (e.g., annealing) where cost-efficiency is prioritized.
- Advanced Model: Suitable for mid-tier R&D requiring moderate vacuum and remote monitoring (e.g., semiconductor testing).
- Pro Model: Best for cutting-edge applications like synthetic diamond production, where extreme precision and safety are critical. With its triple-industry-standard pressure monitoring, researchers can safely handle volatile materials.

Frequently asked questions

Which High Temperature Vacuum Furnace model is best for small laboratory spaces?
How to clean the tube furnace chamber after high-temperature use?
Stainless Steel vs. Ceramic: Which material is better for high-temperature furnace chambers?
Can this furnace’s temperature profile be customized for diamond synthesis?
Is the furnace’s material certified for laboratory safety standards?
How does the furnace ensure safety during high-temperature operations?
What applications are suitable for a 1200°C tube furnace?
How does the programmable control enhance research efficiency?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Maximum Operating Temperature	High-temperature material synthesis (e.g., CVD diamonds)	Industry Standard: 1000°C Our Base: 1200°C (▲200°C) Our Advanced: 1400°C (▲200°C)	Enables synthesis of advanced materials like synthetic diamonds (ASTM F2449)	Higher energy consumption; requires specialized safety protocols (e.g., thermal shielding)
Temperature Uniformity	Precision heat treatment (e.g., alloy annealing)	Industry Standard: ±10°C Our Base: ±5°C (ISO 9001 compliant) Our Advanced: ±2°C (NIST traceable)	Ensures consistent material properties across samples	Requires advanced PID controllers (adds cost)
Vacuum Capability	Sensitive material processing (e.g., semiconductor growth)	Industry Standard: 10⁻³ Torr Our Base: 10⁻⁴ Torr (ASTM E1393) Our Advanced: 10⁻⁵ Torr (▲10x improvement)	Reduces oxidation and contamination risks	Complex vacuum pumps increase maintenance complexity
Heating Rate	Rapid thermal cycling (e.g., stress testing)	Industry Standard: 20°C/min Our Base: 30°C/min (IEC 60068) Our Advanced: 50°C/min (▲20°C/min)	Accelerates production cycles by 40%	Faster rates may induce material stress fractures
Safety Features	Industrial environments with hazardous gases	Industry Standard: Basic alarms Our Base: Interlock systems (IEC 61010) Our Advanced: Dual safety systems (▲2x redundancy)	Prevents accidental exposure to high temps/vacuum	Adds ~20% to upfront costs
Programmable Control	Automated workflows (e.g., batch processing)	Industry Standard: Manual controls Our Base: Basic PID (ISO 10218) Our Advanced: Full touchscreen automation (▲100+ presets)	Reproducible results and remote monitoring	Requires operator training for advanced features

High Temperature Vacuum Cvd Synthetic Diamond Making Machine Tube Furnace for Laboratory Research

High Temperature Vacuum Cvd Synthetic Diamond Making Machine Tube Furnace for Laboratory Research

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Corrosion-Resistant Stainless Steel Construction

2. Programmable Digital Control Panel

3. Industry-Leading Heat Capacity

4. Laboratory-Specific Versatility

5. Safety-Certified Design

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which High Temperature Vacuum Furnace model is best for small laboratory spaces?

How to clean the tube furnace chamber after high-temperature use?

Stainless Steel vs. Ceramic: Which material is better for high-temperature furnace chambers?

Can this furnace’s temperature profile be customized for diamond synthesis?

Is the furnace’s material certified for laboratory safety standards?

How does the furnace ensure safety during high-temperature operations?

What applications are suitable for a 1200°C tube furnace?

How does the programmable control enhance research efficiency?

Product comparison

Related searches