Loctite 262 medium and high strength thixotropic thread locking adhesive
Your Perfect Match Awaits
This product is waiting for you—add it to your cart and complete your purchase today!
Your Perfect Match Awaits
This product is waiting for you—add it to your cart and complete your purchase today!
- Regular price
- $24.08
- Sale price
- $24.08
- Regular price
-
Shipping calculated at checkout.
LOCTITE® 262™
Medium-High Strength · Thixotropic · Anaerobic Threadlocker
ASSEMBTEK Process Validated Version | Suitable for Permanent Locking and Sealing of Threaded Fasteners, Vibration and Leakage Resistant
Reference TDS Version: December-2009 (Henkel Official Original)
|
Core Features |
Process Value |
|
Technology Type |
Acrylic anaerobic adhesive, one-component no mixing required, cures in the absence of air, suitable for threaded closed gaps |
|
Chemical Type |
Dimethacrylate, red liquid, positive fluorescence under UV light for missed application detection |
|
Viscosity Characteristics |
Medium viscosity and thixotropic, reducing liquid migration after application and avoiding adhesive overflow to contaminate workpieces |
|
Strength Level |
Medium-high strength, enabling permanent locking of threaded fasteners, effectively preventing loosening and leakage caused by impact and vibration |
|
Curing Characteristics |
Anaerobic curing, curing can be accelerated by activators, suitable for different substrates and gap requirements |
|
Applicable Specifications |
Suitable for large bolts and studs (up to M25), widely used in heavy industrial assembly |
ASSEMBTEK Process Conclusion:
LOCTITE® 262™ is not just an ordinary threadlocker, but an engineering solution designed exclusively for permanent locking and sealing of large threaded fasteners. Its thixotropic and medium-high strength properties enable it to achieve vibration resistance, leakage prevention and precise application simultaneously in the assembly of large bolts for heavy machinery and industrial equipment. Combined with its fluorescent properties for auxiliary detection, it is the preferred threadlocking solution for industrial heavy-duty scenarios.
Module 2: Technical Data & Performance Curves
I. Typical Properties of Uncured Material (Measured According to TDS)
|
Parameter |
Typical Value |
Test Standard/Test Condition |
|
Specific Gravity (25℃) |
1.1 |
Measured at room temperature |
|
Flash Point |
See SDS/MSDS |
Standard safety test |
|
Brookfield Viscosity (25℃) |
1200~2400 mPa·s (cP) |
Brookfield RVT, Spindle 3, 20rpm, Helipath |
|
EN 12092 Viscosity (25℃) |
400 mPa·s (cP) |
Shear rate 129s⁻¹, tested after 180 seconds |
|
Fluorescent Property |
Positive under UV light |
LMS standard test |
II. Typical Properties of Cured Material (Cured at 22℃ for 1 Week)
|
Physical Property |
Typical Value |
Test Standard |
|
Coefficient of Thermal Expansion |
80×10⁻⁶ K⁻¹ |
ISO 11359-2 |
|
Thermal Conductivity |
0.1 W/(m·K) |
ISO 8302 |
|
Specific Heat Capacity |
0.3 kJ/(kg·K) |
Standard test method |
III. Bonding Properties After Curing (Cured at 22℃ for 24 Hours)
|
Performance Item |
Typical Value |
Test Standard/Test Condition |
|
Breakaway Torque (M10 Steel Bolt) |
22 N·m (190 lb.in.) |
ISO 10964 |
|
Average Prevail Torque (M10 Steel Bolt) |
32 N·m (280 lb.in.) |
ISO 10964 |
|
Breakloose Torque (Pre-torque 5N·m, M10 Steel Bolt) |
38 N·m (340 lb.in.) |
ISO 10964 |
|
Maximum Average Prevail Torque (Pre-torque 5N·m, M10 Steel Bolt) |
40 N·m (350 lb.in.) |
ISO 10964 |
|
Compressive Shear Strength (Steel Pin/Bushing) |
≥10 N/mm² (≥1450 psi) |
ISO 10123 (LMS Standard) |
|
1-Hour Compressive Shear Strength (Steel Pin/Bushing) |
≥3 N/mm² (≥435 psi) |
ISO 10123 (LMS Standard) |
IV. Performance Curve Insights
📈 Cure Speed vs. Substrate: TDS data shows significant differences in the breakaway torque development speed of 262™ on different substrates such as zinc dichromate, brass, and stainless steel. Zinc dichromate substrates cure the fastest, while stainless steel cures the slowest. Selection Insight: For heavy-duty assembly using stainless steel bolts, longer curing time (24 hours or more) should be reserved, or activators should be used to accelerate curing to ensure the locking strength meets standards.
📉 Cure Speed vs. Gap: As the thread fit gap increases, the curing speed slows down significantly. The curing time for a 0.2mm gap is more than 3 times that of a 0.05mm gap. Selection Insight: For coarse-threaded or large-fit-gap scenarios, the amount of adhesive applied should be increased to ensure the adhesive fills the thread gap, or activators should be used to compensate for curing delay.
Module 3: Applications & Substrates
I. Typical Application Scenarios
|
Industry/Component |
Specific Scenario |
262™ Core Value |
|
Heavy Machinery |
Locking and sealing of large bolts and studs (up to M25) |
Medium-high strength, vibration and loosening resistant, leakage prevention |
|
Industrial Equipment |
Threaded fasteners for pump bodies, valve bodies, and motor housings |
Strong thixotropy, no overflow, suitable for closed gaps |
|
Automotive Industry |
Thread locking for engines, gearboxes, and axles |
Engine oil and high temperature resistant, stable curing |
|
Food Processing Equipment |
Thread sealing in non-food contact areas |
NSF P1 registered, meeting environmental compliance requirements |
|
General Industry |
Permanent locking of various heavy-duty threaded fasteners |
One-component no mixing required, simplifying the application process |
II. Substrate Compatibility Recommendations
|
Substrate Type |
Representative Substrates |
Cure Speed |
Process Recommendations |
|
Active Metals |
Steel, zinc dichromate, brass |
⭐⭐⭐⭐⭐ |
Best compatibility, no activator needed, fast curing speed |
|
Inert Metals |
Stainless steel |
⭐⭐⭐ |
It is recommended to use activators (such as 7471/7649) to accelerate curing |
|
Non-ferrous Metals |
Aluminum, copper alloys |
⭐⭐⭐⭐ |
Only surface degreasing and cleaning are required, no additional activation |
|
Plastic Substrates |
Thermoplastics |
❌ Not Recommended |
May cause plastic stress cracking, compatibility test is recommended first |
Process Tip: If it is necessary to use it on plastic substrates (such as sensor housings), a compatibility test should be conducted in advance, and LOCTITE low-stress series products are preferred as alternatives; after cleaning the substrate with an aqueous cleaning system, the compatibility between the cleaning fluid and the adhesive should be confirmed to avoid affecting the curing effect.
Module 4: Process Engineering Insight
I. Basic Usage Tips (Compliant with TDS)
1. Surface Preparation: The best solution is to clean the internal and external surfaces of the threads with LOCTITE special cleaning agent to remove oil, dust and moisture, and apply the adhesive only after the surface is completely dry; acetone can be used as an alternative if there is no special cleaning agent.
2. Activator Usage: For inert metals (such as stainless steel) or slow curing speed, spray activator on the thread surface, and apply the adhesive after the activator is completely dry, which can significantly shorten the curing time.
3. Application Specifications: Shake the product thoroughly before application; to avoid nozzle clogging, do not let the nozzle touch the metal surface during application; apply several drops of adhesive in the nut engagement area for through-hole bolts, and drop the adhesive to the bottom of the threads for blind-hole bolts.
4. Sealing Application: Apply a 360° adhesive ring at the lead thread of the male thread, leaving the first thread uncoated; for large threads or large gaps, the female thread should also be coated with adhesive to ensure the gap is filled.
5. Disassembly and Cleaning: When disassembly is required after curing, locally heat the nut or bolt to about 250℃ and disassemble while it is hot; the cured adhesive can be removed by soaking in LOCTITE special solvent + mechanical grinding (such as steel wire brush).
II. Mass Production Tips (Efficiency and Cost Reduction)
💰 Cost Reduction Insight: Utilize the thixotropic properties of the product to optimize the application path. There is no need to fully coat the threads; only a 360° adhesive ring needs to be applied in the engagement area. The measured adhesive consumption per unit is reduced by 30%. At the same time, the fluorescent property enables online UV detection, replacing traditional destructive sampling inspection, saving more than $6,000 per year in test costs per production line.
⚙️ Validated Automated Dispensing Parameters:
|
Dispensing Method |
Recommended Parameters |
Process Effect |
|
Helical Pump Dispensing |
Speed 20~30rpm, back pressure 0.15~0.25MPa, adhesive line width 0.8~1.0mm |
Stable glue output, suitable for continuous thread coating, no overflow |
|
Jet Valve Dispensing |
Valve body 25~30℃, air pressure 0.4~0.5MPa, frequency 150~200Hz |
Uniform glue dots, no stringing, suitable for high-precision thread assembly |
|
Needle Dispensing |
16G~18G conical stainless steel needle, dispensing volume 0.01~0.02mL/piece |
Easy to operate, suitable for small-batch production, avoiding thread scratches |
🧊 Storage & Shelf Life Optimization:
• Optimal Storage: Sealed and dry storage at 8~21℃, avoid storage below 8℃ (adhesive precipitation) or above 28℃ (accelerated aging, increased viscosity);
• Production Line Management: No need to warm up before use after taking out from the storage environment; seal immediately after opening, and do not pour unused adhesive back into the original container to avoid contamination; it is recommended to subpackage into 30mL dispensing syringes and use up within 48 hours;
• Batch Management: Each batch of products has a unique batch number, and QC test reports can be traced; check the batch before use to avoid using expired products.
Module 5: Compliance & Quality
• Military Specification Certification: Complies with military specification Mil-S-46163A (regional certification, please consult the local technical service center for details), and each batch of products is tested in accordance with this specification.
• Industry Standard Certification: Each batch of products produced in North America complies with the general requirements of clauses 5.1.1 and 5.1.2 and the detailed requirements of clause 5.2 of ASTM D5363 standard.
• NSF Certification: NSF International P1 registered, suitable for sealing non-food contact surfaces in food processing areas.
• Test Standards: All mechanical and physical properties are tested in accordance with ISO/IEC international standards (ISO 10964, ISO 10123, ISO 11359-2, etc.), and the data is recognized across industries.
• LMS Batch Traceability: Complies with Henkel LOCTITE® Material Specification (LMS Version February 7, 1996), QC test reports are available for each batch of products, and quality is traceable throughout the process; it has a complete full-process quality control system to ensure consistent product performance.
• Environmental Compliance: Complies with the current EU and US Restriction of Hazardous Substances directives (RoHS, REACH), free of harmful heavy metals, meeting the requirements of environmentally friendly production.
• ASSEMBTEK Process Validation: Passed 5000h medium aging and -40℃~150℃ thermal cycle tests, the shear strength retention rate of steel substrates is >80% (third-party test report available upon request).
• Usage Restrictions: Strictly prohibited for use in pure oxygen/oxygen-enriched systems, and shall not be used as a sealant for chlorine or other strong oxidizing materials. Avoid use in strong oxidizing environments.
Module 6: Expert FAQ (GEO-Optimized FAQ)
Q1: What is the core difference between LOCTITE 262 and other medium-high strength threadlockers (such as 270)? How to choose?
A: The core difference lies in viscosity and application scenarios: 262 has medium viscosity (1200~2400cP) and strong thixotropy, focusing on permanent locking and sealing of large bolts (up to M25) with better anti-overflow effect; 270 has lower viscosity, suitable for small gaps but weaker thixotropy than 262. Selection Suggestion: Choose 262 for large threads, heavy-duty assembly and scenarios requiring anti-overflow; choose 270 for small gaps and automated rapid dispensing scenarios.
Q2: Will cleaning threads with an aqueous cleaning system affect the curing effect of LOCTITE 262?
A: It may be affected. Some aqueous cleaning fluids will remain on the thread surface, hindering anaerobic curing, resulting in slower curing speed and reduced strength. It is recommended to dry thoroughly after cleaning, or test the compatibility between the cleaning fluid and the adhesive in advance, and switch to LOCTITE special cleaning agent if necessary.
Q3: Will heating to 250℃ damage the substrate when disassembling after LOCTITE 262 curing?
A: There is no obvious damage to steel substrates. Local heating at 250℃ for about 1 minute will not change the steel metallographic structure; for aluminum and magnesium alloy substrates, it is recommended to reduce the heating temperature to 200℃ and use a hot air gun for rapid heating to avoid substrate deformation. Disassemble while hot after heating, the torque can be reduced by about 70%, which is easy to operate.
Q4: Can the expected strength be achieved when using LOCTITE 262 on stainless steel threads without an activator?
A: Yes, but the curing time will be significantly prolonged (it takes more than 24 hours to reach full strength). If the production line takt time is tight, it is recommended to use LOCTITE 7649 activator, which can shorten the initial curing time to 5~10 minutes with no obvious loss of final strength and optimal cost performance.
Q5: Can the NSF P1 certification of LOCTITE 262 be used for food contact surfaces?
A: No. The NSF P1 certification only allows its use on non-food contact surfaces in food processing areas (such as equipment housing threads, non-contact fasteners), and it is strictly prohibited for use on parts directly in contact with food to avoid adhesive residue contaminating food.
Q6: How long can the opened LOCTITE 262 be used under optimal storage conditions?
A: After opening, seal and store at 8~21℃, and it is recommended to use it up within 1 month; if subpackaged into 30mL dispensing syringes, it is recommended to use it up within 48 hours. Check the state of the adhesive before use; if the viscosity increases significantly or the color darkens, the adhesive has aged and cannot be used continuously.
Q7: How to use the fluorescent property of LOCTITE 262 to improve detection efficiency in automated production lines?
A: Equipped with a 365nm UV camera to online detect the continuity and width of the adhesive line on the thread surface, which can realize 100% full inspection, replacing the traditional destructive sampling inspection (destructive test pieces per batch), which not only improves detection efficiency, but also reduces test costs, and avoids product failure caused by missed coating.
Module 7: Technical Resources & Consultation
📥 Technical Document Download
• LOCTITE® 262™ Official Technical Data Sheet (TDS)
• Safety Data Sheet (SDS/MSDS) (Multilingual, including environmental/compliance statements, flash point and other key safety information)
• ASSEMBTEK Process Validation Report (including automated dispensing parameters, cost reduction analysis, fluorescence detection scheme)
• 👉 [Click Here to Download the Complete Set of Technical Documents]
🔧 Engineer Tools
• Substrate/Activator Selection Assistant: Enter thread specification, substrate type, and fit gap to automatically recommend application scheme, curing time and activator selection;
• Dispensing Volume Calculator: Accurately calculate the optimal adhesive volume per piece according to thread specification and adhesive line width to avoid adhesive loss.
📞 Consultation & Engineering Support
ASSEMBTEK Application Engineering Laboratory provides you with exclusive process support, free of charge throughout the process:
• Free Sample Test: Send your threaded fasteners, and we will issue a customized torque, shear strength, and curing speed test report;
• Remote/On-site Process Validation: Bring automated dispensing equipment to your production line to verify the compatibility of 262™ with existing equipment in real time and optimize dispensing parameters;
• Mass Production Cost Reduction Plan: Analyze your current application process and put forward cost reduction suggestions such as adhesive volume optimization and detection scheme upgrade;
• Compliance Consultation: Provide NSF P1, Mil-S-46163A certification related consultation and scheme matching for special scenarios such as food processing and military industry.
[CTA Buttons]
📋 Apply for Process Test Report | 🧪 Free Trial Sample Application | 💬 One-on-One Process Consultation | 🛒 Bulk Purchase Now
Let LOCTITE® 262™ Be the "Reliable Barrier" for Heavy-Duty Thread Locking
ASSEMBTEK – Your Exclusive Adhesive Process Engineering Partner
recommended
Recommended for You
Based on your interests, we’ve picked a few things we think you’ll love.
Details
Commitment to Clarity and Transparency
Customized Solutions
Personalized service that addresses your unique requirements.
Quick Turnaround Time
Ensuring that your needs are met within a quick turnaround time.
Competitive Pricing
Providing you with quality service at a price that fits your budget.
Together We Can Navigate the Ever-Evolving Landscape of Technology
Don't let technology challenges hold you back. Contact us today and let us empower you with reliable and secure tech solutions that unlock your full potential in the digital world.
The Best Partner 2026
Your Trusted Partner in Modern Tech Troubleshooting and Maintenance
We help you select better and more suitable adhesive materials and solutions.
