Huntsman - ARALDITE MY 740 / ARADUR HY 925 / Silica flour

Enhanced TDS

Identification & Functionality

Chemical Family: Epoxy & Epoxy Derivatives
RTU Product Type: Casting Resin
Technologies: Composite Materials
Product Families: Composite Materials — Resin Systems
Casting

Features & Benefits

Ready-to-Use Product Features

Good Mechanical Properties,

High Glass Transition Temperature,

High Voltage Insulation,

Thermal Shock Resistant

Product Features

Good mechanical properties at elevated temperature
High thermal shock resistance

Applications & Uses

Composites Processing Methods

Cure Method

Product End Uses

Markets

Electrical & Electronics

Applications

Electrical & Electronics — Parts & Components

Switches & Relays

Electrical & Electronics — Wire & Cable

Jacketing & Insulation

Remarks

Because both products contain accelerating additives, avoid storing them for extended periods at elevated temperatures. Incorrect handling of the components can result in undesirable viscosity increases, change in reactivity and substandard Cured-state properties.

Processing Methods

Automatic pressure gelation process (APG)
Conventional gravity casting process under vacuum

Application Information

Indoor electrical insulators for medium and high voltage, such as switch and apparatus components.
Encapsulation of large metal parts.

Properties

Physical Form: Liquid

Technical Details & Test Data

System Preparation

General instructions for preparing liquid resin systems

Long pot life is desirable in the processing of any casting resin system. Mix all of the components together very thoroughly at room temperature or slightly above and under vacuum. Intensive wetting of the filler is extremely important. Proper mixing will result in:

better flow properties and reduced tendency to shrinkage
lower internal stresses and therefore improved mechanical properties on object
improved partial discharge behaviour in high voltage applications.

For the mixing of medium- to high viscous casting resin systems and for mixing at lower temperatures, we recommend special thin film degassing mixers that may produce additional self-heating of 10-15 K as a result of friction. For low viscous casting resin systems, conventional anchor mixers are usually sufficient.
In larger plants, two premixers are used to mix the individual components (resin, hardener) with the respective quantities of fillers and additives under vacuum. Metering pumps then feed these premixes to the final mixer or a continuous mixer. The individual premixes can be stored at elevated temperature (about 60°C) for up to about 1 week, depending on formulation. Intermittent agitation during storage is advisable to prevent filler sedimentation.
Mixing time can vary from 0.5 to 3 hours, depending on mixing temperature, quantity, mixing equipment and the particular application. The required vacuum is 0.5 to 5 mbar. The vapor pressure of the individual components should be taken into account. In the case of dielectrically highly stressed parts, we recommend checking the quality consistency and predrying of the filler. Their moisture content should be max. 0.2%.

Gelation / Cure Time

Geltime in function of temperature (measured with Gelnorm Instrument, ISO 9396.)

Temperature (°C)	Time (min)
80	765
100	175
120	38
140	11
160	5.5

Specific Instructions

The effective pot-life of the mix is about 2 days at temperatures below 25°C. Conventional batch mixers should be cleaned once a week or at the end of work. For longer interruptions of work, the pipes of the mixing and metering installations have to be cooled and cleaned with the resin component to prevent sedimentation and/or undesired viscosity increase. Interruptions over a week-end (approx. 48h) without cleaning are possible if the pipes are cooled at temperatures below 18°C.

Mould temperature
APG process	130 - 160°C
Conventional vacuum casting	70 - 100°C

Demoulding times (depending on mould temperature and casting volume)
APG process	10 - 40 min
Conventional vacuum casting	3 - 8h

Cure conditions
APG process (minimal postCure)	6-12h at 130°C or 140°C
Conventional vacuum casting	10-20h at 130°C or 140°C

To determine whether crosslinking has been carried to completion and the final proper- ties are optimal, it is necessary to carry out relevant measurements on the actual object or to measure the Glass Transition Temperature. Different gelling and Cure Cycles in the manufacturing process could lead to a different crosslinking and Glass Transition Temperature respectively.

Mechanical & Physical Properties

Determined on standard test specimen at 23°C
Cured for 6h at 80°C + 10h at 130°C

Double Torsion Test
Critical stress intensity factor (K₁𝒸)	1.8 - 2.0	MPa·m¹/₂
Specific energy at break (G₁𝒸)	300 - 350	J/m²
Glass Transition Temperature (DSC)	105 - 125	°C	ISO 11357-2
Density (Filler load: 60% by wt.)	1.75 - 1.80	g/cm³	ISO 1183

Safety & Health

Industrial Hygiene

Mandatory and recommended industrial hygiene procedures should be followed when- ever our products are being handled and processed.

Handling Precautions

Industrial hygiene: Mandatory and recommended industrial hygiene procedures should be followed when- ever our products are being handled and processed. For additional information please consult the corresponding Safety Data Sheets and the brochure "Hygienic precautions for handling plastics products”.

Personal hygiene
Safety precautions at workplace
protective clothing	overalls
gloves	essential
arm protectors	recommended when skin contact likely
goggles/safety glasses	yes
Skin protection
before starting work	Apply barrier cream to exposed skin
after washing	Apply barrier or nourishing cream
Cleansing of contaminated skin	Dab off with absorbent paper, wash with warm water and alkali-free soap, then dry with disposable towels. Do not use solvents
Disposal of spillage	Soak up with sawdust or cotton waste and deposit in plastic-lined bin
Ventilation of workshop	Renew air 3 to 5 times an hour
Ventilation of workplaces	Exhaust fans. Operatives should avoid inhaling vapours

First Aid : Contamination of the eyes by resin, hardener or mix should be treated immediately by flushing with clean, running water for 10 to 15 minutes. A doctor should then be consulted. Material smeared or splashed on the skin should be dabbed off, and the contaminated area then washed and treated with a cleansing cream (see above). A doctor should be consulted in the event of severe irritation or burns. Contaminated clothing should be changed immediately. Anyone taken ill after inhaling vapours should be moved out of doors immediately. In all cases of doubt call for medical assistance.

Storage & Handling

Storage Conditions: Store the components at 18-25°C, in tightly sealed and dry original containers. Under these conditions, the shelf life will correspond to the expiry date stated on the label. Product specific advise regarding storage can be found on product label. After this date, the product may be processed only following reanalysis. Partly emptied containers should be closed tightly immediately after use.