TechnicalData Sheet LOCTITE 460 (TDS for new formulation of Loctite 460 ) August -2012 PRODUCT DESCRIPTION at 22 C / 50% relative humidity. This is defined as the time to develop a shear strength of 0.1N/mm. LOCTITE 460 provides the following product Fixture Time, seconds : characteristics: Steel 10 to 30 Technology Cyanoacrylate Aluminum 5 to 10 ChemicalType Alkoxyethyl cyanoacrylate Zinc dichromate 20 to 45 Appearance(uncured) Transparent, colorless to straw Neoprene <5 LMS colored liquid Rubber, nitrile <5 Components One part -requires no mixing ABS <5 Viscosity Low PVC 5 to 30 Cure Humidity Polycarbonate 10 to 20 Application Bonding Phenolic <5 Wood (pine) 20 to 30 Key Substrates Metals ,Plastics and Elastomers Leather 1 to 10 Paper <5 This Technical DataSheet is valid for LOCTITE 460 manufactured from the dates outlined in the Manufacturing Date Referenc section . Cure Speed vs. Bond Gap The rate of cure will depend on the bondline gap. Thin bond lines result inhighcure speeds, increasing the bond gapwill LOCTITE 460 has low odor and low blooming properties decrease the rate of cure. and is particularly suitable for applicationswhere vapor control is difficult.The product provides rapid bonding of a wide range of materials, including metals, plastics and elastomers . Cure Speed vs. Humidity The rate of cure will depend on the ambient relative LOCTITE 460 is particularly suited for bonding porous or humidity. The best results are achieved when the relative absorbent materials such as wood, paper,leather and fabric. humidity inthe working environment is 40% to 60% at 22C. Lower humidity leads to slower cure. Higher humidity accelerates it,but may impairthe finalstrength of the bond. TYPICALPROPERTIES OF UNCURED MATERIAL SpecificGravity 25 C 1.1 Cure Speed vs. Activator Flash Point -See MSDS Where cure speed is unacceptably long due to large gaps, applyingactivator to the surface will improve cure speed. Viscosity, Cone & Plate, mPas (cP): However, this can reduce ultimate strength of the bond and -1 LMS Temperature: 25 C, Shear Rate: 3,000s 25 to 55 therefore testing is recommended to confirm effect. Viscosity, Brookfield -LVF , 25 C, mPas (cP): Spindle1,speed 30 rpm, 30 to 50 TYPICALPERFORMANCE OF CURED MATERIAL Adhesive Properties Cured for 10 seconds 22 C Tensile Strength, ISO6922: LMS Buna-N N/mm 4.5 TYPICALCURING PERFORMANCE (psi) (652 ) Under normal conditions, the atmospheric moisture initiates the curing process. Although full functional strength is developed ina relatively short time, curing continues for at least 24 hours before full chemical/solvent resistance is developed. Cure Speed vs. Substrate The rate of cure will depend on the substrate used. The table below shows the fixture time achieved on different materials 100 C 60 C TDS LOCTITE 460 , August -2012 Cured for 72 hours 22 C Heat Aging LapShear Strength, ISO4587: Aged at temperature indicated and tested 22 C Steel (grit blasted) N/mm 21 125 (psi) (3,060) Aluminum (etched) N/mm 18 100 (psi) (2,650) Zinc dichromate N/mm 2.4 80 C (psi) (350) 75 ABS N/mm 7.9 (psi) (1,150) 50 PVC N/mm 2.8 (psi) (410) 25 Phenolic N/mm 1.5 (psi) (220) Polycarbonate N/mm 7.7 0 (psi) (1,120) 0 500 1000 1500 2000 Exposure Time, hours Nitrile N/mm 1.3 (psi) (190) Neoprene * N/mm 0.7 Chemical/Solvent Resistance * (psi) (95) Aged under conditions indicated and tested 22 C. * substrate failure % of initial strength Block Shear Strength, ISO13445: Environment C 100h 500h 1000h Polycarbonate N/mm 25 Motor oil 40 90 60 95 PVC (psi) (2,650) Unleaded gasoline 22 90 80 75 N/mm 2.6 Ethanol 22 90 90 90 (psi) (380) Isopropanol 22 100 100 100 Water 22 75 40 35 98% RH 40 60 25 70 Cured for 24 hours 22 C Water/glycol 25 90 85 80 Tensile Strength, ISO6922: Steel pinto steel pin N/mm 30 (psi) (4,330) LapShear Strength, ISO4587: Polycarbonate TYPICALENVIRONMENTAL RESISTANCE Cured for 1 week 22 C LapShear Strength, ISO4587: % of initial strength Steel (grit blasted) Environment C 100h 500h 1000h Air 22 90 100 85 Hot Strength 98% RH 40 80 70 80 Tested at temperature 120 GENERAL INFORMATION This product is not recommended for use in pure oxygen 100 and/or oxygen rich systems and should not be selected as asealant for chlorine or other strong oxidizing materials. 80 For safe handling information on this product, consult the 60 Material Safety DataSheet (MSDS). 40 Directions for use: 20 1. Bond areas should be cleanand free from grease. Clean allsurfaces with a Loctite cleaningsolvent and allow to 0 -40 -20 0 20 40 60 80 100 120 dry . Temperature, C 2. To improve bonding on low energy plastic surfaces, Loctite Primer may be appliedto the bond area. Avoid applyingexcess Primer. Allow the Primer to dry . 3. LOCTITEActivator may be used ifnecessary. Applyit to one bond surface (do not applyactivator to the primed surface where Primer is also used). Allow the Activator to dry . Henkel Americas Henkel Europe Henkel Asia Pacific +860.571.5100 +49.89.320800.1800 +86.21.2891.8863 For the most direct access to local sales and technical support visit: www.henkel.com/industrial % Strength 22 C % Strength 22 C