Enhanced TDS
Identification & Functionality
- Blend
- No
- Chemical Family
- Plastics & Elastomers Functions
- Product Code
- MITM01720
- Single Ingredient
- Yes
- Technologies
- Product Families
Features & Benefits
- Labeling Claims
- Materials Features
- Key Features
- OREVAC® 18302N has been designed to develop a reliable bonding strength in coextrusion processes between polyethylene or ethylene copolymers and different materials among which polyamides and EVOH.
- OREVAC® 18302N is also recommended in non-halogen flame retardant cable compounds using high loadings of mineral fillers which require outstanding mechanical properties such as high tensile strength at break and good elongation and good chemical resistance.
Applications & Uses
- Compatible Polymers & Resins
- Plastics & Elastomers End Uses
- Plastics & Elastomers Processing Methods
- Markets
- Applications
Properties
- Physical Form
Technical Details & Test Data
- Processing Parameters
OREVAC® 18302N is to be processed like a standard medium density polyethylene resin. It can be processed within different extrusion and coextrusion technologies including blown film,
blow molding and tube coextrusion. Temperature settings have a major influence on adhesion development. Therefore, it is recommended to process OREVAC® 18302N at the minimum melt temperature of 210°C.Typical extrusion temperature settings could be:
Zone 1 Zone 2 Zone 3 Zone 4 Exit Fittings Channels Die 160-180°C 180-200°C 200-220°C 210-230°C 215-230°C 220-230°C 220-240°C For the production of cable compounds, OREVAC® 18302N is suitable with the most common types of equipment (internal mixers, Buss® kneader, twin screw extruders); it provides an effective coupling between the base polymers (EVATANE®, LOTRYL®, various polyolefins)and the mineral fillers (ATH, MDH).
Packaging & Availability
- Packaging Type
Storage & Handling
- Storage Conditions
OREVAC® 18302N should be stored in dry conditions protected from UV-light. Improper storage conditions may cause degradation and have consequences on physical properties of
the product.Shelf Life is three years from the date of delivery, in unopened packaging.
Other
- Color (SDS)
- White
- Decomposition Temperature (SDS)
- min. 536.0 °F
- Density
- 0.91 g/cm³
- Density
- 0.91 g/cm³
- Density (SDS)
- 915.0-920.0 kg/m³
- Elongation at Break
- 790.0 %
- Elongation at Break
- 790.0 %
- Insoluble in (SDS)
- Water
- Item Number
- Melt Flow Index
- 1.5 g/10min
- Melt Flow Index
- 1.5 g/10min
- Melting Point
- 123.0 °C
- Melting Point (SDS)
- 120.0-125.0 °C
- Principal
- Shelf Life
- 3.0 yr
- Softening Point
- 84.0 °C
- Softening Point
- 84.0 °C
- Tensile Strength at Break
- 20.0 MPa
- Tensile Strength at Break
- 20.0 MPa
- Tensile Strength at Break
- 7.0 MPa
- Shelf Life & Stability
Value Units Test Method / Conditions Shelf Life 3.0 yr yr - Mechanical Properties
Value Units Test Method / Conditions Elongation at Break1 790.0 % % ASTM D638 Elongation at Break2 790.0 % % ISO 527 Tensile Strength at Break3 20.0 MPa MPa ASTM D638 Tensile Strength at Break 20.0 MPa MPa ISO 527 Tensile Strength at Break 7.0 MPa MPa ISO 527-2 - Physical Properties
Value Units Test Method / Conditions Density 0.91 g/cm³ g/cm³ ISO 1183 Density 0.91 g/cm³ g/cm³ ASTM D1505 Melt Flow Index 1.5 g/10min g/10min ASTM D1238 at 190°C, 2.16 kg Melt Flow Index 1.5 g/10min g/10min ISO 1133 at 190°C , 2.16 kg Melting Point 123.0 °C °C ISO 11357-3 Softening Point 84.0 °C °C ASTM D1525 10N Softening Point 84.0 °C °C ISO 306 10N - SDS Physical and Chemical Properties
Value Units Test Method / Conditions Decomposition Temperature (SDS) min. 536.0 °F °F Density (SDS) 915.0-920.0 kg/m³ kg/m³ at 20°C Melting Point (SDS) 120.0-125.0 °C °C