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  • Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe
  • Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe
  • Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe
  • Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe
  • Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe
Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe

Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe

  • 10 - 49 Kilograms
    $2.50
  • 50 - 199 Kilograms
    $2.30
  • 200 - 499 Kilograms
    $2
  • >= 500 Kilograms
    $1.80

Customization:

Customized logo(Min.Order: 30 pieces)
Customized packaging(Min.Order: 30 pieces)
Graphic customization(Min.Order: 30 pieces)
View product details

Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • Temperature Measurement Precision: Designed as a deep drawing stainless steel closed-end tube probe for accurate temperature sensing in harsh environments.
  • Durability & Sealing: Closed-end tube structure ensures corrosion resistance and fluid/airtight sealing, ideal for industrial and building applications.
  • Material Superiority: Made from 304L, 316, or 400-series stainless steel, offering high strength, thermal stability, and resistance to chemical exposure.

Key features

  • 1. Material Technology

    • With corrosion-resistant 304L/316 stainless steel and 400 series alloys, you can ensure durability in harsh industrial environments. The cold-rolled technique enhances strength, outperforming standard carbon steel components by resisting rust and maintaining structural integrity over time.*

  • 2. Interactive Design

    • With seamless welding construction (ERW-free), you can achieve superior leak-proof performance and easier integration into precision systems. This design reduces maintenance needs compared to traditional ERW-welded tubes.*

  • 3. Performance Parameters

    • With ±1% dimensional tolerance and polished surface finishes, you can attain ultra-precise measurements and reduced friction in high-accuracy applications. This precision outperforms standard tubes with 2-3% tolerances in critical industrial setups.*

  • 4. Scenario Solutions

    • With closed-end tube design and industrial-grade corrosion resistance, you can deploy the probe in continuous high-temperature or corrosive environments (e.g., boilers, chemical plants). This ensures reliability in 24/7 commercial operations, unlike consumer-grade sensors.*

  • 5. Certification Standards

    • With CE certification and compliance with ISO/JIS standards, you can meet global safety and quality requirements effortlessly. This assures regulatory approval for industrial use, contrasting uncertified alternatives.*

Product details

Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe

The Deep Drawing Stainless Steel Closed End Tube Temperature Sensor Probe is engineered for precision and reliability in industrial and building applications. Crafted from high-grade stainless steel (304L, 316, 400 series), these probes feature seamless or ERW welding lines, cold-rolled construction, and polished surfaces to ensure durability and corrosion resistance. With tight 1% tolerance and CE certification, they meet ISO/JIS standards for seamless integration into temperature monitoring systems.

Technical specifications

FeatureSpecificationApplication Scenario
Material304L, 316, 400 series stainless steelIndustrial equipment, harsh environments
Surface Finish2B, polished, brightMedical devices, food processing
Tolerance±1%Precision engineering, sensor assemblies
Welding TypeERW, seamlessHigh-pressure systems, structural joints
CertificationCECompliance for EU industrial standards
Standard ComplianceISO/JISGlobal manufacturing and construction

Customization guide

Adjustable length, diameter, and material grades (e.g., 316 for corrosive environments) to meet specific dimensional or chemical resistance needs. End configurations (e.g., threaded, grooved) can be tailored for alignment or secure fitting in complex assemblies.

Get inspired

With seamless precision and corrosion-resistant stainless steel, these probes are ideal for temperature monitoring in industrial machinery, HVAC systems, or food-grade equipment. Their uniformity and polished finish ensure reliable performance in demanding applications.

Choose your model

ParameterBase Model (400 Series)Advanced Model (304L)Pro Model (316)
Material Grade400 series304L316
Corrosion ResistanceStandard+20% vs Base+40%
Welding TypeERWERWSeamless
Temperature Range-20°C to 400°C-40°C to 500°C-50°C to 600°C

Supplier's note

  1. Technical Breakthroughs:

    • The Pro Model’s 316 stainless steel provides 40% higher corrosion resistance than the Base Model, enabling use in chemical plants or marine environments.
    • Seamless welding in Advanced/Pro Models eliminates weak points, enhancing structural integrity for high-pressure systems.
    • Cold-rolled technique ensures 1% tolerance, critical for precision sensor assemblies.

  2. Version Selection Guide:

    • Base Model: Ideal for general industrial applications where cost-efficiency is prioritized.
    • Advanced Model: Suitable for food processing or automotive sectors needing moderate corrosion resistance and wider temperature ranges.
    • Pro Model: Best for extreme environments (e.g., offshore platforms, chemical plants) where durability and precision are paramount.

With 316 stainless steel, you can ensure longevity in corrosive settings. Pair seamless welding with the Pro Model’s expanded temperature range to handle extreme industrial processes. Choose the Base Model for standard applications to optimize budget and performance.

Frequently asked questions

  • Which stainless steel grade (304L vs 316) is best for corrosive industrial environments for my temperature sensor probe?

  • How do I maintain and clean a stainless steel temperature sensor probe to ensure longevity?

  • Can the Deep Drawing Stainless Steel Closed End Tube Probe be customized for specific industrial applications?

  • What certifications does the stainless steel temperature sensor probe meet?

  • What’s the difference between 304L and 400 series stainless steel for industrial temperature probes?

  • Does the seamless welding type affect the probe’s accuracy in high-temperature settings?

  • Which temperature sensor probe suits high-temperature ovens (above 600°C)?

  • Can the probe handle tight tolerances (±1%) in precision manufacturing?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Material GradeCorrosive environments, food processingIndustry: 304 (ASTM A240) vs Our Base: 304L (▲ ASTM A240, 0.03% max C) vs Our Advanced: 316 (▲▲ ASTM A240, 12% Cr)Base resists intergranular corrosion; Advanced withstands seawater/chemicalsBase: 15% cost ↑ vs 304; Advanced: 30% cost ↑ vs Base due to alloy rarity
Welding TechniqueHigh-pressure systems, medical devicesIndustry: ERW (ASTM A240) vs Our Base: Seamless (▲ no weld seam) vs Our Advanced: ERW/Seamless (▲▲ customizable)Base eliminates weak weld points; Advanced balances cost and precisionBase: 20% ↑ manufacturing cost; Advanced: Requires dual production lines
Surface FinishCleanrooms, food contactIndustry: 2B (ASTM A480) vs Our Base: Polished (▲ 0.8 Ra finish) vs Our Advanced: Electropolished (▲▲ 0.4 Ra, sterile)Base reduces friction; Advanced meets FDA/medical standardsBase: 10% ↑ cost; Advanced: 35% ↑ cost for chemical etching
Dimensional TolerancePrecision instruments, aerospaceIndustry: ±2% (ISO 9001) vs Our Base: ±1% (▲ tighter) vs Our Advanced: ±0.5% (▲▲ ultra-precise)Base improves component fit; Advanced ensures critical alignmentBase: 25% ↑ tooling cost; Advanced: Requires laser calibration
Certification ComplianceEU markets, global projectsIndustry: Local (e.g., ISO 9001) vs Our Base: CE (▲ EU compliance) vs Our Advanced: CE + ISO/JIS (▲▲ global acceptance)Base unlocks EU markets; Advanced meets international standardsBase: CE testing cost ($2k); Advanced: Dual certification ($5k)
Application SuitabilityBuilding HVAC, chemical plantsIndustry: General (e.g., HVAC) vs Our Base: Building (▲ optimized for ductwork) vs Our Advanced: Harsh (▲▲ chemical resistance)Base suits HVAC systems; Advanced handles aggressive chemicalsBase: Limited to HVAC; Advanced: Niche use cases (e.g., petrochemicals)

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