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  • High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml
  • High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml
  • High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml
  • High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml
  • High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml
  • High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml
High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml

High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml

  • 1 - 1 Sets
    $1,100
  • >= 2 Sets
    $890
View product details

High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Pressure Synthesis: Enables hydrothermal and melting reactions under extreme conditions, supporting advanced material synthesis and chemical processing.
  • Corrosion Resistance: PTFE/Teflon-lined interior prevents chemical corrosion, ensuring durability in harsh environments.
  • Automatic Operation: Equipped with automated controls for precise pressure and temperature management, streamlining lab workflows.
  • Tubular Design: Facilitates continuous or sequential reactions in small-scale (0.1L) synthesis processes.

Key features

  • 1. Corrosion-Resistant Stainless Steel & PTFE Lining

    • With a corrosion-resistant stainless steel body and chemical-resistant PTFE lining, you can perform high-pressure hydrothermal synthesis in harsh chemical environments. The dual-layer design extends service life by resisting corrosion ~20% longer than traditional reactors without PTFE lining*.

  • 2. Automated Multi-Program Control System

    • With an automatic-grade touchscreen interface and pre-set programs, you can streamline complex synthesis processes without manual intervention. This reduces operational errors compared to manual reactors, improving lab efficiency*.

  • 3. High-Pressure & Temperature Tolerance

    • With a robust stainless steel frame rated for extreme pressure and temperature, you can accelerate reaction speeds by maintaining stable conditions up to 30% higher than standard tubular reactors*. Ideal for demanding hydrothermal applications.

  • 4. Compact Lab-Scale Design for Versatile Use

    • With a 100ml capacity and tubular reactor configuration, you can conduct precise experiments in limited lab spaces. Its small footprint makes it ~30% more space-efficient than comparable commercial-scale reactors* while maintaining industrial-grade performance.

  • 5. Food-Grade PTFE Lining Certification

    • With FDA-approved PTFE lining, you can ensure safety for pharmaceutical or food-grade applications. This certification meets stricter hygiene standards than non-certified reactors, reducing contamination risks*.

Product details

High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor Teflon-Lined Stainless Steel Autoclave 100ml

The High Pressure Melting Hydrothermal Synthesis PTFE Lined Reactor is a compact, corrosion-resistant tubular reactor designed for high-pressure chemical synthesis. Built with a stainless steel frame and PTFE lining, it combines durability with chemical inertness, making it ideal for laboratory-scale reactions requiring up to 0.1L capacity.

Technical specifications

FeatureSpecificationBenefit
MaterialStainless Steel Frame + PTFE LiningCorrosion resistance and chemical inertness
Capacity0.1L (100ml)Precision for small-batch synthesis
Automatic GradeFully Automatic ControlStreamlined operation and safety
Pressure Rating30 MPa (Customizable)Supports high-pressure hydrothermal reactions
Temperature Range-20°C to 300°CVersatile for diverse reaction conditions
DesignTubular Reactor with Threaded EndsSecure sealing and modular assembly

Customization guide

Adjustable parameters include pressure tolerance (up to +30% beyond standard), lining thickness, and temperature control precision to meet specialized needs like extreme pH environments or high-temperature stability.

Get inspired

Ideal for researchers and engineers in material science, pharmaceuticals, or nanotechnology, this reactor enables controlled synthesis of advanced materials under harsh conditions while ensuring safety and repeatability.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Pressure Rating25 MPa+20% (30 MPa)+30% (32.5 MPa)*
Automation LevelManual OverrideSemi-AutomaticFully Automated
Temperature Range-10°C to 250°C-20°C to 300°C-20°C to 350°C
Lining ThicknessStandard (2mm)Enhanced (3mm)Premium (4mm)

Supplier's note

  1. Three Technical Breakthroughs:

    • PTFE Lining: With chemical-resistant PTFE, you can perform reactions involving aggressive acids/bases without corrosion.
    • Stainless Steel Frame: 30% lighter than carbon steel alternatives while maintaining structural integrity.
    • Integrated Temperature Sensors: Enable real-time monitoring for ±1°C accuracy, reducing reaction errors.

  2. Optimal Version Selection:

    • Base Model: Suitable for academic labs needing basic automation and moderate pressure (e.g., polymer synthesis).
    • Advanced Model: Ideal for industrial R&D requiring extended temperature ranges (e.g., catalyst testing at 300°C).
    • Pro Model: Engineers handling ultra-high-pressure reactions (e.g., supercritical fluid processing) benefit from its 32.5 MPa rating and 4mm lining, which doubles the corrosion resistance of competitors.

*Pro Model’s pressure rating exceeds industry benchmarks by 10%.

Frequently asked questions

  • Which high-pressure reactor model suits small-scale lab experiments with 100ml capacity?

  • How to clean the PTFE-lined reactor after hydrothermal synthesis?

  • Stainless steel vs glass reactors: Which is better for corrosive chemicals?

  • Can the tubular reactor handle high-pressure hydrothermal processes up to 200°C?

  • What customization options are available for the 100ml Teflon-lined autoclave?

  • Is the PTFE-lined reactor FDA-approved for food-grade chemical synthesis?

  • How does the automatic grade feature benefit hydrothermal synthesis automation?

  • What makes this reactor suitable for continuous-flow hydrothermal processes?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Material CompositionChemical processing, lab researchIndustry Standard: Stainless Steel (ASTM A240)
Our Base: 316L SS + PTFE Lining (ASTM F38)
Our Advanced: Duplex SS (ASTM A890) + 2mm PTFE (▲)		▲ Enhanced corrosion resistance in harsh chemicals
Lightweight durability		Higher cost for Advanced tier due to specialized alloys and lining thickness
CapacitySmall-scale synthesis, pilot testingIndustry Standard: 0.1–1L (ISO 80000-4)
Our Base: 0.1L (ISO 80000-4)
Our Advanced: 0.5L (▲)		Precise for micro-batch experiments
Compact footprint		Limited scalability for industrial volumes
Automation LevelAutomated labs, quality-controlled plantsIndustry Standard: Manual operation
Our Base: PLC-controlled automation (ISO 13849-1 PLe)
Our Advanced: IoT-enabled remote monitoring (▲)		▲ Reduces human error and labor costs
Real-time data logging		Requires IT infrastructure for Advanced tier
Pressure ResistanceHigh-pressure synthesis, catalysisIndustry Standard: 50 bar (ASME BPVC)
Our Base: 100 bar (ASME BPVC)
Our Advanced: 150 bar (▲)		▲ Handles extreme conditions for supercritical fluid applicationsHeavier construction limits portability
Temperature RangeThermal stability testing, sinteringIndustry Standard: Up to 200°C (ISO 17025)
Our Base: 250°C (ISO 17025)
Our Advanced: 300°C (▲)		▲ Operates in high-temperature environments like polymer curingRequires specialized cooling systems for Advanced tier
Corrosion ResistanceAcid/base handling, pharmaceuticalsIndustry Standard: Unlined carbon steel
Our Base: PTFE-lined (ASTM F38)
Our Advanced: Double-layer PTFE + Hastelloy (▲)		▲ Withstands 50+ chemical exposures (ASTM D543)
No cross-contamination		Advanced tier adds weight and complexity to maintenance

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