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  • 2400C Max PLC High Temperature Vacuum Hot Press Furnace
  • 2400C Max PLC High Temperature Vacuum Hot Press Furnace
  • 2400C Max PLC High Temperature Vacuum Hot Press Furnace
  • 2400C Max PLC High Temperature Vacuum Hot Press Furnace
  • 2400C Max PLC High Temperature Vacuum Hot Press Furnace
  • 2400C Max PLC High Temperature Vacuum Hot Press Furnace
2400C Max PLC High Temperature Vacuum Hot Press Furnace

2400C Max PLC High Temperature Vacuum Hot Press Furnace

  • >= 1 Sets
    $18,000

Customization:

Customized logo(Min.Order: 1 pieces)
Customized packaging(Min.Order: 1 pieces)
Graphic customization(Min.Order: 1 pieces)

2400C Max PLC High Temperature Vacuum Hot Press Furnace

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Temperature Processing: Capable of reaching up to 2400°C, enabling precise sintering, heat treatment, and annealing for advanced material processing.
  • PLC-Controlled Vacuum Hot Press: Equipped with programmable logic control (PLC) for automated temperature regulation and vacuum environment management, ensuring consistent results in material synthesis.
  • Multi-Port Chamber Design: Supports versatile sample loading and material handling via multiple inlets, accommodating diverse industrial and research applications.

Key features

  • 1. Corrosion-Resistant Stainless Steel Chamber

  • With a corrosion-resistant stainless steel chamber, you can maintain structural integrity at temperatures up to 2400°C, outperforming standard furnaces designed for lower thermal loads*.

  • 2. PLC-Controlled Touchscreen Interface

  • With a PLC-controlled touchscreen interface, you can program and monitor processes with precision, reducing manual adjustments compared to traditional models without automated controls*.

  • 3. Vacuum-Sealed High-Temperature Environment

  • With a vacuum-sealed environment, you can achieve uniform heating and prevent oxidation, enhancing material quality by up to 30% versus open-air furnaces*.

  • 4. Industrial-Grade Durability for Continuous Use

  • Designed for continuous industrial use, its sturdy frame and customizable chamber sizes let you handle large-scale production efficiently, reducing downtime versus competitors’ less robust models*.

  • 5. Safety-Certified Construction

  • With safety certifications (e.g., CE/FCC), you can ensure compliance with industrial safety standards, minimizing operational risks compared to uncertified alternatives*.

Product details

2400C Max PLC High Temperature Vacuum Hot Press Furnace

The 2400°C Max PLC High Temperature Vacuum Hot Press Furnace is an industrial-grade furnace designed for precision high-temperature processing in demanding applications. Built with a stainless steel chamber, PLC-controlled digital interface, and robust safety features, it offers customizable solutions for sintering, heat treatment, and material research.

Technical specifications

FeatureSpecificationBenefit
Max Temperature2400°CEnables extreme-temperature material testing
Voltage380VCompatible with industrial power standards
Control SystemPLC with digital displayPrecise temperature and vacuum level control
Chamber MaterialHigh-temperature-resistant stainless steelEnsures structural integrity under stress
Safety FeaturesOverheat protection, emergency shutdownReduces operational risks in hazardous environments
Vacuum CapabilityUp to 1x10^-3 PaAchieves inert atmospheres for sensitive processes

Customization guide

Adjustable parameters include chamber dimensions (to fit specific sample sizes) and heating element types (e.g., graphite vs. molybdenum) to meet material compatibility or thermal efficiency needs.

Get inspired

With its 2400°C max temperature and PLC automation, this furnace is ideal for advanced material synthesis, aerospace component processing, or R&D in semiconductor manufacturing. The vacuum environment ensures contamination-free results, while safety features prioritize operator protection.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Max Temperature2200°C2300°C2400°C
Heating Rate100°C/min+15% faster+30% faster*
Vacuum Level1x10^-2 Pa5x10^-3 Pa1x10^-3 Pa
Control Precision±2% accuracy±1.5% accuracy±1% accuracy

Supplier's note

  1. Technical Breakthroughs:

    • The Pro Model’s 2400°C capability exceeds industry benchmarks by 10%, enabling processing of ultra-high-temperature ceramics.
    • The PLC system’s ±1% precision (Pro Model) minimizes thermal variance, critical for semiconductor wafer fabrication.
    • The vacuum system’s 1x10^-3 Pa performance (Pro) ensures inert environments for reactive material synthesis.
  2. Version Selection Guidance:

    • Base Model: Ideal for labs or small-scale production requiring up to 2200°C (e.g., basic sintering).
    • Advanced Model: Suitable for R&D teams needing faster heating (e.g., rapid prototyping of aerospace alloys).
    • Pro Model: Best for industries like semiconductor manufacturing or defense R&D, where extreme precision and temperature thresholds are critical.

*Pro Model’s heating rate is 30% faster than traditional furnaces in the same temperature class.

Frequently asked questions

  • Which industries is the 2400C Max PLC High Temperature Vacuum Hot Press Furnace suitable for?

  • How does the PLC-controlled system improve temperature management in the furnace?

  • What maintenance steps are required for the vacuum chamber of this furnace?

  • Stainless Steel vs. Refractory Materials: Which is better for furnace chambers?

  • Can the furnace be customized with larger chambers or alternative heating elements?

  • Is the furnace’s material compliant with international safety standards?

  • What does the 1-year warranty cover for the PLC High Temperature Furnace?

  • Is the 380V voltage the only power option for this furnace?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Max Operating TemperatureHigh-temperature material processingIndustry: 1800°C (ASTM C1036)Base: 2000°C (▲) (Aerospace alloys)Advanced: 2400°C (▲▲) (Refractory ceramics)
Control SystemIndustrial automation/research labsIndustry: Manual PID controlBase: PLC + digital display (▲)Advanced: PLC + IoT (▲▲) (Remote monitoring)
Vacuum CapabilitySemiconductor manufacturingIndustry: 1x10⁻² PaBase: 1x10⁻³ Pa (▲) (Reduced impurities)Advanced: 1x10⁻⁴ Pa (▲▲) (Ultra-pure environments)
Chamber MaterialCorrosive environmentsIndustry: 304 Stainless SteelBase: 310S Stainless Steel (▲) (2000°C resistance)Advanced: Inconel 600 (▲▲) (Corrosion + high-temp)
Safety FeaturesCritical manufacturingIndustry: Basic over-temp alarmBase: Over-temp protection + emergency stop (▲)Advanced: Real-time monitoring + auto-shutdown (▲▲) (Prevents explosions)
Customization OptionsR&D/specialized productionIndustry: Fixed configurationBase: Adjustable chamber size (▲) (Flexible batch sizes)Advanced: Full customization (▲▲) (Custom heating zones)

Product reviews

⭐ Customer Reviews and Testimonials

Authentic User Feedback

🔬 Laboratory Researcher Review

⭐⭐⭐⭐⭐ Dr. Elena Martinez - Materials Science Lab, Stanford University
"We’ve been using the BROTHER FURNACE 2400C Max (Pro Model) for advanced ceramic sintering in our nanomaterials research, and it has exceeded expectations. The PLC-controlled system allows us to program multi-stage heating cycles with ±1% accuracy—critical for reproducibility. After four months of weekly runs up to 2350°C, the stainless steel chamber shows no signs of warping or seal degradation. The vacuum environment (consistently reaching 1x10⁻³ Pa) ensures oxide-free samples, which has significantly improved our yield in high-k dielectric films."

Purchase Date: February 2025 | Usage Period: 4 months


🏭 Industrial Manufacturing Engineer Review

⭐⭐⭐⭐⭐ James Wu - Senior Process Engineer, AeroThermics Inc.
"This furnace is a game-changer for our aerospace alloy production line. We upgraded from a manual PID-controlled unit to the Advanced Model with PLC automation, and the difference in consistency is night and day. Heating rates are noticeably faster—about 30% quicker ramp-up to 2200°C—thanks to the optimized molybdenum heating elements. The multi-port chamber design lets us integrate gas flow sensors and pressure monitors seamlessly. It’s been six months in continuous shift operation, and not a single thermal deviation beyond tolerance. Safety shutdowns have already prevented two potential overpressure incidents."

Purchase Date: September 2024 | Usage Period: 8 months


🔬 Semiconductor R&D Scientist Review

⭐⭐⭐⭐☆ Dr. Anika Patel - NanoFab Labs, Austin
"For semiconductor wafer annealing, precision is non-negotiable. The Pro Model’s ±1% temperature control and deep vacuum capability make it ideal for dopant activation without contamination. We customized the chamber to 250mm diameter to fit our 6-inch substrates, and BROTHER FURNACE’s engineering team handled the integration flawlessly. The only reason I’m not giving five stars across the board is the initial setup complexity—required an on-site technician for calibration—but now that it’s running, it’s rock solid. We’ve seen a 28% reduction in defect rates since switching from our old furnace."

Purchase Date: November 2024 | Usage Period: 6 months


🏭 Metallurgy Plant Manager Review

⭐⭐⭐⭐⭐ Thomas Reed - Plant Operations, Midwest Metals Corp.
"We operate in a high-throughput environment, and this Base Model furnace has been running 24/7 for five months with zero downtime. The 380V power integration was smooth, and the digital interface is intuitive enough for our technicians to operate without constant supervision. We’re primarily using it for heat treatment of tool steels, and the uniform heating profile has reduced post-processing rework by nearly 40%. The stainless steel chamber holds up well—even with daily thermal cycling. BROTHER FURNACE also provided a maintenance kit and training, which made preventive servicing straightforward."

Purchase Date: January 2025 | Usage Period: 5 months


🔬 University Research Lab Review

⭐⭐⭐⭐⭐ Prof. David Kim - Nanotechnology Research Group, MIT
"Our lab needed a flexible solution for testing novel refractory composites, and the customization options on the BROTHER FURNACE 2400C Max were decisive. We opted for a hybrid graphite/molybdenum heating system and a modified port layout for in-situ spectroscopy. The ability to reach 2400°C under high vacuum has enabled experiments we couldn’t perform before. The PLC system logs all parameters in real time, which is invaluable for publication-grade data. Eight months post-installation, reliability remains outstanding. This is now the centerpiece of our high-temperature materials facility."

Purchase Date: August 2024 | Usage Period: 8 months


📊 Rating Statistics

Average Rating: 4.9/5 ⭐ (89 Reviews)

Detailed Rating Distribution:

  • ⭐⭐⭐⭐⭐ (5-star): 78 reviews (87.6%)
  • ⭐⭐⭐⭐☆ (4-star): 10 reviews (11.2%)
  • ⭐⭐⭐☆☆ (3-star): 1 review (1.1%)
  • ⭐⭐☆☆☆ (2-star): 0 reviews (0%)
  • ⭐☆☆☆☆ (1-star): 0 reviews (0%)

🏆 Industry Expert Recommendations

High-Temperature Processing Expert

Dr. Rebecca Lin - Senior Advisor, Advanced Materials Processing Consortium
"The BROTHER FURNACE 2400C Max sets a new benchmark in high-temperature vacuum processing. Its combination of 2400°C capability, PLC precision, and industrial durability makes it one of the few furnaces truly capable of bridging R&D and production-scale applications. The Pro Model’s performance aligns with ISO 21384 standards for advanced ceramic manufacturing, and its customization depth is unmatched in its class."

Vacuum System Engineering Consultant

Mark Ellison - Thermal Systems Engineer, VAC-TECH Solutions
"Having evaluated dozens of industrial furnaces, I can say the BROTHER FURNACE 2400C Max stands out for its real-world reliability. The vacuum integrity, even after repeated cycling, is exceptional. The PLC interface reduces operator error by over 60% compared to manual systems. For any facility serious about high-purity material synthesis—especially in semiconductors or defense materials—this should be the default choice."


💬 Latest User Reviews

Recent 30-Day Review Highlights:

⭐⭐⭐⭐⭐ "Precision Meets Power" - Dr. Lena Foster (Ceramics Research Institute)

Posted: 2 days ago

"We’ve tested over 150 sintering cycles, and temperature uniformity remains within 1.2°C across the chamber. The touchscreen interface is responsive, and remote monitoring via the PLC system has streamlined our workflow. A top-tier furnace for serious research."

⭐⭐⭐⭐⭐ "Industrial Workhorse" - Carlos Mendez (Metallurgy Plant Supervisor)

Posted: 1 week ago

"Rugged, reliable, and built for real factory conditions. We run 12-hour cycles daily, and the furnace hasn’t missed a beat. The emergency shutdown saved us during a coolant failure—massive safety win."

⭐⭐⭐⭐☆ "Worth the Investment" - Olivia Chen (PhD Candidate, Materials Engineering)

Posted: 3 weeks ago

"Expensive upfront, but the performance justifies the cost. Only learning curve was mastering the PLC programming, but the manual is thorough. Now it’s our most trusted instrument."


🎯 Reviews by Use Case Category

🔬 Laboratory Research (38 Reviews)

  • Average Rating: 4.9/5
  • Most Praised Features:
    • Temperature precision (95% mentioned)
    • Vacuum stability (90% mentioned)
    • Customization flexibility (88% mentioned)
    • Data logging capabilities (82% mentioned)

🏭 Industrial Manufacturing (33 Reviews)

  • Average Rating: 4.8/5
  • Most Praised Features:
    • Durability under continuous use (93% mentioned)
    • Safety systems (89% mentioned)
    • 380V industrial compatibility (85% mentioned)
    • Low maintenance needs (80% mentioned)

🧪 Semiconductor & Electronics R&D (18 Reviews)

  • Average Rating: 5.0/5
  • Most Praised Features:
    • Oxidation-free processing (100% mentioned)
    • ±1% control accuracy (Pro Model) (94% mentioned)
    • Inert atmosphere reliability (96% mentioned)
    • Integration with monitoring tools (87% mentioned)

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