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  • Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory
  • Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory
  • Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory
  • Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory
  • Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory
  • Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory
Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory

Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory

$2630.00-$4740.00/ Set|1 Set/Sets(Min. Order)

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Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Temperature Precision Control: Capable of reaching up to 1700°C, this vertical tubular furnace ensures precise temperature regulation for applications like thermal analysis, material sintering, and annealing.
  • Durable Construction: Features an alumina tube and quartz lining for corrosion resistance and heat retention, paired with a stainless steel exterior for durability in harsh environments.

Key features

  • 1. Corrosion-Resistant Material Technology

    • With a corrosion-resistant stainless steel body and high-purity alumina/quartz tube, you can maintain structural integrity under extreme temperatures and corrosive environments, outperforming conventional models*.

  • 2. Advanced Interactive Design

    • With a digital control panel featuring programmable temperature presets and real-time monitoring, you can customize heating profiles for precise experiments, eliminating manual adjustments*.

  • 3. Superior Performance Parameters

    • With a maximum temperature of 1700°C and ±1°C precision, you can achieve consistent results in demanding applications like sintering or thermal analysis, surpassing standard lab furnaces*.

  • 4. Versatile Scenario Solutions

    • Designed for vertical operation, you can efficiently conduct continuous high-temperature processes in both laboratory and industrial settings, enhancing workflow efficiency compared to horizontal models*.

  • 5. Compliance with Certification Standards

    • Certified to CE standards, you can ensure safety and reliability for professional use, meeting rigorous regulatory requirements.

Product details

Lab Tubular Furnace High Temperature 1700C Vertical Alumina Electric Tube Furnace with Quartz Tube for Laboratory

The Lab Tubular Furnace High Temperature 1700°C is a vertical alumina electric tube furnace designed for precision heating in laboratory and industrial applications. Equipped with a quartz tube and CE certification, it offers robust temperature control up to 1700°C, ideal for material synthesis, thermal analysis, and high-temperature processing.

Technical specifications

FeatureSpecificationBenefit
MaterialAlumina heating chamber, quartz tubeCorrosion resistance and thermal stability
Temperature RangeRoom temperature to 1700°CEnables extreme heat applications
Control SystemProgrammable digital interfacePrecise temperature programming and monitoring
Safety FeaturesOver-temperature protection, CE-certifiedEnsures user safety and compliance
DesignVertical, compact stainless steel frameSpace-efficient and durable construction

Customization guide

Adjustable parameters include quartz tube length (50–200 cm) and heating zone length (customizable up to 50 cm) to meet specific sample size or process duration requirements. The control system can be tailored to integrate with third-party software for automated workflows.

Get inspired

With its 1700°C capability and quartz tube, this furnace is perfect for advanced material science research, such as sintering ceramics or analyzing phase transitions. The vertical design simplifies sample loading and unloading, while the programmable controls ensure repeatable results for quality assurance processes.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Max Temperature1600°C1650°C1700°C
Heating Rate20°C/min25°C/min30°C/min (+50% faster)
Temperature Uniformity±5°C±3°C±1.5°C
Control SystemBasic digitalPID programmableAI-optimized PID

Supplier's note

  1. Technical Breakthroughs:

    • The Pro Model’s 1700°C max temperature exceeds industry benchmarks by 6%, enabling processing of ultra-high-temperature materials like refractories.
    • The Advanced Model’s ±3°C uniformity reduces experimental variability by 40% compared to standard furnaces.
    • The Base Model’s stainless steel frame ensures durability in corrosive environments, validated by CE certification.

  2. Version Selection Guide:

    • Base Model: Ideal for routine tasks (e.g., annealing) where cost efficiency is prioritized.
    • Advanced Model: Suitable for research labs requiring precise temperature control (e.g., material phase analysis).
    • Pro Model: Recommended for R&D or industrial applications demanding extreme temperatures (e.g., ceramic sintering). With its AI-optimized PID control, it ensures stable performance even at peak temperatures, safeguarding sensitive experiments.

Frequently asked questions

  • Which high-temperature furnace model is best for small-scale lab experiments?

  • How do I clean the quartz tube in a 1700°C tubular furnace?

  • Alumina vs Quartz Tube: Which is better for thermal analysis?

  • Can this furnace be customized with a programmable temperature profile?

  • Is the 1700°C furnace suitable for sintering metal alloys?

  • What safety certifications does the tubular furnace have?

  • How does the vertical design benefit laboratory use?

  • Can I use this furnace for continuous high-temperature experiments?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Temperature RangeMaterial sintering, high-heat experimentsIndustry Standard: 1600°C (ASTM E230)
Our Base: 1700°C (ASTM E230) ▲
Our Advanced: 1800°C (ASTM E230) ▲▲		Enables precise high-temp processes (e.g., ceramics, metallurgy).
Base: Covers most lab needs.
Advanced: Extends to extreme applications (e.g., nanomaterials).		Advanced: Requires specialized cooling systems (e.g., water cooling).
Control SystemAutomated processes, research labsIndustry Standard: Manual dials
Our Base: PID controller (ISO 9001) ▲
Our Advanced: Touchscreen + Wi-Fi (IEC 61131) ▲▲		Base: ±1°C accuracy for reliable results.
Advanced: Remote monitoring and data logging.		Advanced: Higher cost and training required.
Insulation MaterialEnergy efficiency, thermal stabilityIndustry Standard: Ceramic fiber (ISO 17025)
Our Base: Alumina ceramic (ISO 17025) ▲
Our Advanced: Zirconia-alumina hybrid (ISO 17025) ▲▲		Base: Withstands thermal shock (200°C/sec).
Advanced: 20% faster heat-up (15°C/min vs 12°C/min).		Advanced: 30% heavier and bulkier.
Safety FeaturesHazardous material handlingIndustry Standard: Basic over-temp alarm
Our Base: Dual sensors + alarm (IEC 60534) ▲
Our Advanced: Auto-shutoff + gas purge (IEC 60534) ▲▲		Base: Reduces fire risk in labs.
Advanced: Mitigates explosive gas risks.		Advanced: Adds 20% to upfront cost.
CertificationsGlobal complianceIndustry Standard: Basic CE
Our Base: CE + RoHS ▲
Our Advanced: CE + RoHS + UL (USA) ▲▲		Base: Meets EU safety standards.
Advanced: Access to North American markets.		Advanced: Requires recertification for regional use.
Noise LevelQuiet environmentsIndustry Standard: 55 dBA (louder than vacuum cleaner)
Our Base: 48 dBA (similar to fridge hum) ▲
Our Advanced: 42 dBA (quieter than whisper) ▲▲		Base: Ideal for shared labs.
Advanced: Suitable for noise-sensitive labs (e.g., acoustic testing).		Advanced: Heavier insulation increases weight by 15%.

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