Aron Alpha 400X Series
Aron Alpha 400X Series is engineered for high temperature and high impact resistance. Excellent bond strength in conditions up to 250°F

Unit of Measure

Specifications

Series

N/A 400X

Type

N/A 401X

Unit Size

N/A 500 gm bottle

Units per case

N/A 2

Color

N/A Clear

Gap Fill

N/A 0.002"

Viscosity

N/A 2 cps

Tensile Shear Strength (Steel)

N/A 5800 psi

Temperature Range

N/A -65 ºF to +250 ºF

Set Time (Steel)

N/A 15 s

Bonding Strength to Metal

N/A Excellent

Bonding Strength to Electroplating

N/A Good

Bonding Strength to Plastic

N/A Good

Anti Shock Resistance

N/A Good

Set Time(PVC)

N/A 10 s

Set Time (ABS)

N/A 10 s

Set Time (Polycarbonate)

N/A 60 s

Set Time (Steel)

N/A 45 s

Set Time (Aluminum)

N/A 60 s

Tensile Strength (PVC)

N/A 30 N/mm²

Tensile Strength (ABS)

N/A 24 N/mm²

Tensile Strength (Iron)

N/A 42 N/mm²

Tensile Strength (Aluminum)

N/A 41 N/mm²

Tensile Shearing Strength (Polycarbonate)

N/A 6 N/mm²

Form of Packing (20g)

N/A Good

Boiling Point

N/A 60 ºC140 ºF

Pressure

N/A 5

Surface Tension

N/A 34 dynes/mm

Solubility Parameter

N/A 10-11

Solvents

N/A Acetone, Dimethyl formamid, Dimethyl Sulfoxide

Rate of Line Expansion (x 10-4)-(Solid State)

N/A 1.1

Volume dielectric resistivity (Ω-cm, 86°F)

N/A 1014

Tensile Strength

N/A 0.5 x 0.5 x 1.5 inch; bonded area 0.25 sq. inch

Tensile Shear Strength (for plastic and rubber)

N/A 0.1 x 1.0 x 4.0 inch; bonded area 0.5 sq.inch

Tensile Shear Strength (for metal)

N/A 0.064 x 1.0 x 4.0 inch; bonded area 0.5 sq. inch

Bonding Atmosphere

N/A 22 to 24 ºC72 to 75 ºF

Relative Humidity

N/A 58-62%

Testing Methods

N/A ASTM D2095, D3164, and D1002

Before Curing

Appearance (Liquid State)

N/A Colorless and Transparent

Base Monomer (Liquid State)

N/A Ethyl 2-Cyanoacrylate

Viscosity (Liquid State)

N/A 2 cps

Specific Gravity (d20)-(Liquid State)

N/A 1.05

Flash Point (Closed Cup)-(Liquid State)

N/A 83 ºC181 ºF

Freezing Point (Liquid State)

N/A -30 ºC-22 ºF

After Curing

Appearance (Solid State)

N/A Colorless and Transparent

Specific Gravity (d20)-(Solid State)

N/A 1.25

Hardness (Rockwell M)-(Solid State)

N/A 85

Softening Point (Vicat)-(Solid State)

N/A 145 ºC293 ºF

Refractive Index (n20)-(Solid State)

N/A 1.49

Glass Transition Point (Solid State)

N/A 140 ºC284 ºF

Dielectric Constant (10MC, 50°F)-(Solid State)

N/A 3.5

Characteristics of Aron Alpha® Cyanoacrylate Adhesives

Characteristics

N/A
  • Instant Bonding :
    Adhesion is achieved in a few seconds, It is well suited for increasing the efficiency of the manufacturing process.
  • Easy to use:
    Adhesive is single component and heat treatment are not required. Perfect f

Storage

N/A

  • Store product in the unopened container in a dry location.

Humidity

  • Avoid moist, humid storage conditions.
  • Fasten cap tightly to avoid exposure to moisture.
  • Store with desiccant.

Temperature

  • Avoid storing at a

Method of Disposal

N/A

  • Expose the adhesives in the containers to moisture and light to let it harden slowly, and to treat it as waste plastics (drastic hardening may result in heating, pay attention to this situation).
  • Please comply with local regulations when dispos

Setting Time

N/A

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Bonding Strength (Tensile)

N/A

(Tensile measured in psi for various materials)

Material Tensile Strength (psi)
  401X 402X 403X
Steel 5800
Aluminum 5800
Copper 5800
Stainless Steel 6400
Rigid PVC/Steel 2800
Copper/Phenolic resin 4300
Aluminum/ABS 2600
Stainless Steel/Neoprene 360

Bonding Strength (Shear)

N/A

(Shear measured in psi for various materials)

Material Shear Strength (psi)
  401X 402X 403X
Steel 3300
Aluminum 2500
Copper 2800
Stainless Steel 3100
Rigid PVC/Steel 1000
Copper/Phenolic resin 1000
Aluminum/ABS 710
Stainless Steel/Neoprene 70

Impact Strength

N/A

(kgf cm/cm2)

  401X 402X 403X
Steel 28
Aluminum 13
Copper 15
Stainless Steel 13
Brass 13

Heat Resistance

N/A

Heat Resistance (psi)

a) Measured under heated conditions

Temperature (°F) x hours 401X 402X 403X
212 x 6 2800
212 x 12 2800
266 x 6 1400
266 x 12 1400
302 x 6 570
302 x 12 430
       

 

b) Measured at room temperature after cooling
Temperature (°F) x hours 401X 402X 403X
212 x 6 3300
212 x 12 3300
266 x 6 2700
266 x 12 2600
302 x 6 1800
302 x 12 1600

How to Apply

N/A

Clean the surfaces to be bonded and then apply Aron Alpha. Be sure to apply Aron Alpha to only one of the surfaces to be bonded, preferably the smaller surface, the surface on which Aron Alpha set time is longer, or the surface looking upward.

Common error in applying Aron Alpha is to apply an excessive quantity of Aron Alpha or to apply a too small quantity of Aron Alpha in a wide thin film. In the former case, it is waste of Aron Alpha as well as damage to the appearance of the bonded materials. Also this may briny about chlorosis or solvent cracks. In the latter case, Aron Alpha monomer may harden before the actual bonding starts and this will reduce the bond strength to a great extent. This is particularly the case with rubber materials.

Therefore, see that the nozzle of Aron Alpha container is in touch with the surface to be bonded so that you can apply an optimum quantity of Aron Alpha from the container, and immediately after that mate the two surfaces and let Aron Alpha monomer spread between the two surfaces. It is not necessary to have the monomer spread by rubbing motion.

Aron Alpha monomer, if kept in the form of a mound on the surface, does not harden for 5 to 10 minutes and retains a practically sufficient bond strength.

Optimum quantity of Aron Alpha: With Aron Alpha bonding, the thinner the film of Aron Alpha monomer on the surface to be bonded, the greater is the resultant bond strength.

An excessive quantity of Aron Alpha never helps increase the bond strength. On the contrary, it may bring about chlorosis, solvent cracks, or erosion by Aron Alpha monomer of the surface to be bonded.

On the other hand, a too scarce quantity of Aron Alpha will also produce an unsatisfactory bond strength, hence defective products.

Test results indicate that with Aron Alpha the optimum quantity to be applied at one time is 0.004 - 0.006 g/cm² or 0.03 - 0.05 mm in terms of film thickness.

On the basis of the value of 5 mg/cm², you can obtain standard bond strengths as shown in Table 1.

Also the optimum quantity applied can be a measure of production control at your plant. That is, from the predetermined bond area of the material to be bonded, you can figure out in advance how many products or parts can' bonded with, for example, an Aron Alpha 20 gram bottle and with the figure thus obtained you can maintain a quantified control of Aron Alpha bonding operation, minimizing the bonding cost and eliminating defective end products.

Precaution

N/A

When in contact with Skin

  • Don't peel it off forcibly, instead use warm water or remover to rub it off.

When in contact with Eyes

  • It will damage the eyes to rub the eyes or to use solvents. Must rinse with large amount of water and get medical attention.

Applications

N/A

  • For Wood Work: Suitable for bonding wood. Complete and wide range of adhesive grades available. Suitable for assembling wooden products and repairing. Wooden molds and expensive rare woods.
  • Artificial Marble: For use on artificial marble with various kinds of colors such as transparent, white, black and grey.
  • Color Grades: Able to confirm the coating colors of adhesives.
  • Remover: For use in removing hardened substances and peel off parts of adhesives

Features

N/A

  • Fast setting to various materials
  • Good bonding strength to various materials (especially metal)
  • Good tensile shear strength under heated conditions or after heating
  • High impact strength

Warning

N/A

  • May have an irritating odor, Aron Alpha might irritate eyes, nose and throat. Please maintain proper ventilation it is used in large amounts or for a long period of time. Please wear protective glasses and/or hood shield.
  • In case of absorbing into cloth, Aron Alpha will rapidly polymerize and result in heating. During operation, avoid wearing gloves made of absorbable materials, instead use solvent proof polyethylene gloves.
  • ARON ALPHA is a flammable liquid. Use in a well ventilated area, and keep away from fire.