FR4830 is a chemically crosslinkable Non-halogen flame retardant Polyethylene compound for Primary Automotive and Appliance Wire. Applications FR4830 is intended for use as a 125° C rated primary insulation for crosslinked automotive and appliance wires. Specifications FR4830 meets the applicable requirements as below when processed using sound extrusion practice and testing procedure: - SAE J1128/J1127 - UL 44 SIS - UL AWN Style 3173, 125 °C

FR4832 is a Chemically Crosslinkable Polyethylene Compound for Primary Automotive Wires. Applications FR4832 is intended for use as a 125° C rated primary insulation for crosslinked automotive wire. Specifications FR4832 in combination meets the applicable requirements as below when processed using sound extrusion and testing procedure: - SAE J1128/J1127

FR4845 is an Irradiation Crosslinkable non-halogen flame retardant compound developed for the automotive wire market. Applications FR4845 is intended for use as a 125° C rated primary insulation for crosslinked automotive wire. Specifications FR4845 in combination meets the applicable requirements as below when processed using sound extrusion and testing procedure: - SAE J1128/J1127

Borlink LC8205R is a crosslinkable natural polyethylene compound based on Supercure technology, specially designed for insulation of energy cables. Applications Borlink LC8205R is intended for insulation of XLPE power cables with rated voltages up to 72 kV. It is designed for cable constructions with bonded insulation shields. Specifications Borlink LC8205R meets the applicable requirements as below when processed using sound extrusion practices and testing procedures - Cenelec HD 620 S1, Part 1, table 2A, DIX 3 to 14 - IEC 60502-2 - DIN VDE 0276-620 - IEC 60840 - GOSTR 55025-2012 Special Features Borlink LC8205R is a ready-to-use natural co-polymer compound. It provides superior electrical performance (polymer WTR XLPE) meeting the most stringent wet ageing requirements. It offers excellent scorch resistance, long production runs and high line speed potential. Borlink LC8205R cleanliness level is assured through the Borealis quality control system.

Borlink LE0595 is a crosslinkable black polyethylene compound, specially designed for semiconductive conductor screen and bonded insulation screen of energy cables. Borlink LE0595 is designed for semiconductive screens in XLPE medium and high voltage cables. It can be used as inner and outer screen for bonded cable construction and as inner screen for strippable cable constructions. Borlink LE0595 meets the applicable requirements as below when processed using sound extrusion practices and testing procedures - AEIC CS8 - AEIC CS9 - BS 6622 - DIN VDE 0276-263 - DIN VDE 0276-620 - Cenelec HD 620 S1 - Cenelec HD 632 S1 - IEC 60502-2 - IEC 60840 - ICEA S-93-639 - ICEA S-94-649 - ICEA S-97-682 - ICEA S-108-720 - NF C33-223 - NF C33-226 Borlink LE0595 is a ready-to-use semiconductive compound. It offers excellent thermal stability which provides robust cable extrusion and crosslinking at high surface temperature, allowing for high line speed. The excellent distribution of carbon black and additives in Borlink LE0595 results in a smooth semiconductive screen.

Casico FR4803 is a thermoplastic, low smoke zero halogen (LSZH) flame retardant, UV stabilised, natural jacketing compound combining with excellent extrusion properties. The composition is based on the elements Carbon, Hydrogen, Oxygen, Silicon and Calcium. Compounds based on these elements will therefore be the only significant constituents of the combustion fumes. Other elements may be present in concentrations less than 0.1%. It is based on the novel technology, Casico, containing inorganic filler and a novel char-forming additive which confer flame retardancy with very limited smoke generation. Applications Casico FR4803 is designed for: - Jacket for 90 °C rated building wires (installation cables) and 1 kV low voltage cables It can be used in areas sensitive to smoke or corrosive and toxic combustion products. For most cable constructions, Casico FR4803 has sufficient flame retardancy to satisfy single wire vertical burning tests. Specifications Casico FR4803 meets the applicable requirements below using sound commercial extrusion practice and testing procedures: - ASTM D 1248 Type I, Class A, Category 4 - ISO 1872-PE KGHN-23D006 The following cable material standards are met by Casico FR4803: - EN 50290-2-27 - EN 50363-8 TM7 - VDE 0207 Teil 24 (HM2, HM4 & HM5) - BS 7655 LTS1-4 Cables manufactured with Casico FR4803 using sound extrusion practice normally comply with the following cable product standards: - EN 50288 - VDE 0250 Teil 215 - BS 7211 - IEC 60502 Part 1 ST3 Special Features Casico FR4803 consists of specially selected components to offer: - Low smoke and reduced toxic or corrosive gas emissions - Excellent processing properties - Superb system ageing compatibility - Low water permeability - UV stabilised and suitable for colouring - Possibility for cable downsizing - Processability on most PVC/PE extrusion equipment - No need for pre-drying normally

Grade LS124NTA Silane Crosslinkable PE Compound suitable for Low Voltage Cable insulation with thickness 0.5 – 2.0 mm LS124NTA is Silane - XLPE compound produced under Monosil Technology (One – step process) for using in manufacture of power cable insulation. LS124NTA is Silane grafted polyethylene with additives and processing aids. Typical Applications - LS124NTA is for low voltage wire and cable insulation. - LS124NTA is natural color.

Grade LS224BKA Silane Crosslinkable PE compound suitable for Low Voltage Cable insulation with thickness 0.5 – 2 mm LS224BKA is Silane – XLPE compound produced under Sioplas Technology (two – step – process) used in manufacture of power cable insulation. LS224BKA complies with 2 components: - Material A: Silane grafted polyethylene. - Material B: Catalyst master batch with processing aid and carbon black master batch. Typical Applications - LS224BKA is for low voltage wire and cable insulation. - LS224BKA contents 2 % Carbon black by weight. - LS224BKA is black color

Grade LS224NTA Silane Crosslinkable PE compound suitable for Low Voltage Cable insulation with thickness 0.5 – 2 mm LS224NTA is Silane – XLPE compound produced under Sioplas Technology (two – step – process) used in manufacture of power cable insulation. LS224NTA complies with 2 components: - Material A: Silane grafted polyethylene - Material B: Catalyst master batch LS224NTA is developed to provide good surface, low shrinkage and high speed for low voltage cable. Typical Applications - LS224NTA is for low voltage wire and cable insulation. - LS224NTA is natural color.

Grade LS244BKA is a silane crosslinkable black compound suitable for medium voltage wire and cable insulation with thickness 3 – 5.5 mm LS244BKA is Silane – XLPE compound produced under Sioplas Technology (two – step – process) used in manufacture of power cable insulation. LS244BKA complies with 2 components: - Material A: Silane grafted polyethylene - Material B: Catalyst master batch with processing aid and carbon black master batch Typical Applications - LS244BKA is used for medium voltage wire and cable insulation up to 24 KV. - LS244BKA contents 2 % Carbon black by weight. - LS244BKA is black color.

Grade LS244NTA is a silane crosslinkable compound suitable for medium voltage wire and cable insulation with thickness 3 – 5.5 mm LS244NTA is Silane – XLPE compound produced under Sioplas Technology (two – step – process) used in manufacture of power cable insulation. LS244NTA complies with 2 components: - Material A: Silane grafted polyethylene - Material B: Catalyst master batch with processing aid Typical Applications - LS244NTA is for medium voltage wire and cable insulation up to 24 KV. - LS244NTA is natural color.

DOW ENDURANCE™ HFDB-4201 EHV is a long-life, unfilled, crosslinkable, low density polyethylene insulation compound of extreme cleanliness developed especially for the insulation of power cables that employ high electrical stresses. DOW ENDURANCE™ HFDB-4201 EHV has been designed with a non-migrating stabilizer providing high thermal stability and optimum crosslinking behavior. It has an enhanced degree of scorch retardance for fine mesh filtering and long production run lengths during cable manufacture. DOW ENDURANCE™ HFDB-4201 EHV is recommended especially for the insulation of extra high voltage power transmission cables rated above 230 kV. Specifications HFDB-4201 EHV is designed for use in power distribution and transmission cables. Cables insulated with HFDB-4201 EHV, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - IEC 62067 - AEIC CS9 - ANSI/ICEA: S-108-720 - GB/T 22078

DOW ENDURANCE™ HFDB-4201 SC is a long-life, unfilled, crosslinkable, low density, super clean polyethylene insulation compound developed especially for the insulation of high voltage power cables. DOW ENDURANCE™ HFDB-4201 SC has been designed with a non-migrating stabilizer providing high thermal stability and optimum crosslinking behavior. It has an enhanced degree of scorch retardance for fine mesh filtering and long production run lengths during cable manufacture. DOW ENDURANCE™ HFDB-4201 SC is recommended for the insulation of high voltage power transmission cables rated up to 230 kV. Specifications HFDB-4201 SC is designed for use in power distribution and transmission cables. Cables insulated with HFDB-4201 SC, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - IEC 62067, 60840 - CENELEC HD 632 S3 - AEIC* CS9 - ANSI/ICEA*: S-108-720 - GB/T 11017, GB/Z 18890 *Applicable to USA manufactured product only.

Dow ENDURANCE™ HFDC-4202 EC is a long-life, water-tree-retardant, unfilled, crosslinkable, low density polyethylene insulation compound designed for distribution and transmission power cable applications. It has a very low level of contamination and bears the designation Extra Clean (EC). HFDC-4202 EC has been designed to have a low level of additive bloom for a long storage life, low dusting and an enhanced degree of scorch retardance for long production run lengths during cable manufacture. The permanent tree-retardant additive provides improved performance in power cables in service involving exposure to moisture while retaining the excellent physical, electrical, and processing attributes of conventional, crosslinkable polyethylene. DOW ENDURANCE™ HFDC-4202 EC compound provides electric utilities with: - Advanced, next generation "water" tree-retardant technology, consistently outperforming conventional XLPE and conventional TR-XLPE in accelerated cable wet aging tests at ambient and elevated temperatures - Proven in the field water tree retardance technology for over 25 years, at a broad cross section of geographical conditions, demonstrating excellent reliability and help achieving lowest life cycle costs - Excellent electrical performance demonstrated by very high aged electrical strength and very low aged dissipation factor and power loss. DOW ENDURANCE™ HFDC-4202 EC compound represents an advancement over conventional water tree-retardant, power cable insulation compounds. DOW ENDURANCE™ HFDC-4202 EC is recommended for the insulation of power distribution cables rated up to 46 kV and can be used for transmission cables rated up to 69 kV. Specifications DOW ENDURANCE™ HFDC-4202 EC tree-retardant compound is designed for use in power distribution and sub-transmission cables. DOW ENDURANCE™ HFDC-4202 EC provides improved wet electrical performance and is recommended, with or without moisture barriers, for use as cable insulation up to and including 69 kV applications. Cables insulated with HFDC-4202 EC, using sound commercial fabrication manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - ANSI/ICEA: S-94-649, S-97-682, S-93-639 / NEMA WC74 (TR-XLPE requirements) - AEIC: CS8 - RUS 50-70 (U-1) - CEA: WCWG-01, WCWG-02 - UL 1072 - IEC: 60502, 60840 - CENELEC: HD 620 S2 - DIN VDE 0276-620 - BSI BS 6622 - GB/T 12706 - DL/T 1070

DOW ENDURANCE™ HFDK-4201 SC is a long-life, unfilled, crosslinkable, low density, super clean polyethylene insulation compound developed especially for the insulation of high voltage power cables. DOW ENDURANCE™ HFDK-4201 SC has been designed with a non-migrating stabilizer providing high thermal stability and optimum crosslinking behavior. It has an enhanced degree of scorch retardance for fine mesh filtering and long production run lengths during cable manufacture. DOW ENDURANCE™ HFDK-4201 SC is recommended for the insulation of high voltage power transmission cables rated up to 230 kV. Specifications HFDK-4201 SC is designed for use in power distribution and transmission cables. Cables insulated with HFDK-4201 SC, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - IEC 62067, 60840 - CENELEC HD 632 S3 - GB/T 11017, GB/Z 18890

DOW ENDURANCE™ HFDK-9253 EHV is a long-life, unfilled, crosslinkable, low density polyethylene insulation compound of extreme cleanliness developed especially for the insulation of power cables that employ high electrical stresses. DOW ENDURANCE HFDK-9253 EHV has been designed for cable production processes on horizontal vulcanization lines and for cables with thick insulation manufactured on standard catenary vulcanization lines. DOW ENDURANCE HFDK-9253 EHV has been designed with a non-migrating stabilizer providing high thermal stability, long term stability and optimum crosslinking behavior. It has an enhanced degree of scorch retardance for fine mesh filtering and long production run lengths during cable manufacture. DOW ENDURANCE HFDK-9253 EHV is recommended especially for the insulation of extra high voltage power transmission cables rated above 230 kV. Specifications Cables insulated with DOW ENDURANCE HFDK-9253 EHV, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - IEC 62067 - AEIC CS9 - ANSI/ICEA: S-108-720 - GB/T 22078

Overview DOW ENDURANCE™ HFDK-9253 S is a long-life, unfilled, crosslinkable, low density, super clean polyethylene insulation compound developed especially for the insulation of high voltage power cables. DOW ENDURANCE HFDK-9253 S has been designed for cable production processes on horizontal vulcanization lines and for cables with thick insulation manufactured on standard catenary vulcanization lines. DOW ENDURANCE HFDK-9253 S has been designed with a non-migrating stabilizer providing high thermal stability, long term stability and optimum crosslinking behavior. It has an enhanced degree of scorch retardance for fine mesh filtering and long production run lengths during cable manufacture. DOW ENDURANCE HFDK-9253 S is recommended for the insulation of high voltage power transmission cables rated up to 230 kV Specifications DOW ENDURANCE HFDK-9253 S is designed for use in power distribution and transmission cables. Cables insulated with DOW ENDURANCE HFDK-9253 S, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - IEC 62067, 60840 - CENELEC HD632 S2 - AEIC CS9 - ANSI/ICEA: S-108-720 - GB/T 11017, GB/Z 18890

Overview HFDK-9253 is a long-life, unfilled, crosslinkable, low sag, low density polyethylene insulation compound designed for distribution and transmission power cable insulation applications. HFDK-9253 has been designed for cable production processes on horizontal vulcanization lines and for cables with thick insulation manufactured on standard catenary vulcanization lines. HFDK-9253 has a low level of additive bloom for a long storage life, low dusting and an enhanced degree of scorch retardance for long production run lengths during cable manufacture. HFDK-9253 is recommended for the insulation of power distribution and transmission cables rated up to 69 kV Specifications HFDK-9253 is designed for use in power distribution and sub-transmission cables. Cables insulated with HFDK-9253, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - ANSI/ICEA: S-94-649, S-97-682, S-93-639/NEMA WC74 - AEIC CS8 - UL 1072 - CENELEC HD 620 S2 - IEC 60502, 60840 - GB/T 12706 - BSI BS 6622, 7870-4

HFDB-4201 EC is a long-life, unfilled, crosslinkable, low density polyethylene insulation compound designed for distribution and transmission power cable insulation applications. It has a very low level of contamination and bears the designation Extra Clean (EC). HFDB-4201 EC has been designed to have a low level of additive bloom for a long storage life, low dusting and an enhanced degree of scorch retardance for long production run lengths during cable manufacture. HFDB-4201 EC is recommended for the insulation of power distribution and transmission cables rated up to 69kV. Specifications HFDB-4201 EC is designed for use in power distribution and transmission cables. Cables insulated with HFDB-4201 EC, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - ANSI/ICEA*: S-94-649, S-97-682, S-93-639/NEMA WC74 - AEIC* CS8 - UL 1072 - CENELEC HD 620 S2 - IEC 60502, 60840 - GB/T 12706 - BSI BS 6622, 7870-4 *Applicable to USA manufactured product only.

HFDB-4201 NT is an unfilled, crosslinkable, low density polyethylene insulation compound designed for medium voltage power cable insulation applications. HFDB-4201 NT has been designed to have a low level of additive bloom for a long storage life, low dusting and an enhanced degree of scorch retardance. HFDB-4201 NT is recommended for the insulation of power distribution cables rated up to 46 kV. Specifications HFDB-4201 NT is designed for use in power distribution cables. Cables insulated with HFDB-4201 NT, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - ANSI/ICEA*: S-94-649, S-97-682, S-93-639/NEMA WC74 - AEIC* CS8 - UL 1072 - CENELEC HD 620 S2 - IEC 60502, 60840 - GB/T 12706 - BSI BS 6622, 7870-4 * Applicable to USA manufactured product only.

Dow HFDC-4202 NT is a long-life, water-tree-retardant, unfilled, crosslinkable, low density polyethylene insulation compound designed for medium voltage power cable insulation applications. HFDC-4202 NT has been designed to have a low level of additive bloom for a long storage life, low dusting and an enhanced degree of scorch retardance. The permanent tree-retardant additive provides improved performance in power cables in service involving exposure to moisture while retaining the excellent physical, electrical, and processing attributes of conventional, crosslinkable polyethylene. HFDC-4202 NT compound provides electric utilities with: - Advanced "water" tree-retardant technology, consistently outperforming conventional XLPE and conventional TR-XLPE in accelerated cable wet aging tests at ambient and elevated temperatures - Proven in the field water tree retardance technology for over 25 years, at a broad cross section of geographical conditions, demonstrating excellent reliability and help achieving lowest life cycle costs - Excellent electrical performance demonstrated by very high aged electrical strength and very low aged dissipation factor and power loss. HFDC-4202 NT compound represents an advanced water tree-retardant, power cable insulation compound. HFDC-4202 NT is suitable for the insulation of power distribution cables rated up to 46 kV. Specifications HFDC-4202 NT tree-retardant compound is designed for use in power distribution cables. HFDC-4202 NT provides improved wet electrical performance and is recommended, with or without moisture barriers, for use as cable insulation up to and including 46 kV applications. Cables insulated with HFDC-4202 EC, using sound commercial fabrication manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - ANSI/ICEA: S-94-649, S-97-682, S-93-639 / NEMA WC74 (TR-XLPE requirements) - AEIC: CS8 - RUS 50-70 (U-1) - CEA: WCWG-01, WCWG-02 - UL 1072 - IEC: 60502, 60840 - CENELEC: HD 620 S1 - DIN VDE 0276-620 - BSI BS 6622, 7870-4 - GB/T 12706 - DL/T 1070

HFDG-4201 is a low-density, crosslinkable, unfilled polyethylene compound designed for use in power cable applications of 10 KV or less. Specifications Cables insulated with HFDG-4201, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - IEC 60502 - GB/T 12706

HFDK-4201 EC is a long-life, unfilled, crosslinkable, low density polyethylene insulation compound designed for distribution and transmission power cable insulation applications. It has a very low level of contamination and bears the designation Extra Clean (EC). HFDK-4201 EC has been designed to have a low level of additive bloom for a long storage life, low dusting and an enhanced degree of scorch retardance for long production run lengths during cable manufacture. HFDK-4201 EC is recommended for the insulation of power distribution and transmission cables rated up to 69kV. Specifications HFDK-4201 EC is designed for use in power distribution and transmission cables. Cables insulated with HFDK-4201 EC, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - CENELEC HD 620 S2 - IEC 60502, 60840 - GB/T 12706 - BSI BS 6622, 7870-4

HFDK-4201 NT is an unfilled, crosslinkable, low density polyethylene insulation compound designed for medium voltage power cable insulation applications. HFDK-4201 NT has been designed to have a low level of additive bloom for a long storage life, low dusting and an enhanced degree of scorch retardance. HFDK-4201 NT is suitable for the insulation of power distribution cables rated up to 46 kV. Specifications HFDK-4201 NT is designed for use in power distribution cables. Cables insulated with HFDK-4201 NT, using sound commercial manufacturing practice, would be expected to meet the latest editions of the following specifications and regulations: - CENELEC HD 620 S2 - IEC 60502, 60840 - GB/T 12706 - BSI BS 6622, 7870-4

This data represents typical values that have been calculated from all products classified as: Generic XLPE This information is provided for comparative purposes only.

GETILAN: is the trade-mark of our crosslinkable polythene. GETILAN ATP/03 NATURALE: used for the production of flexible hoses and connecting pipes suitable for contact with water. It is an appropriately grafted polythene capable of reacting in the presence of moisture and a catalyst. The catalyst we normally recommend is the GETILAN MAC/003 type. REACTION BETWEEN GRAFTING AND CATALIZER: These two compounds, stored separately, must be mixed before starting extrusion in the ratio: GRAFTING / CATALYSTER 95/5

GETILAN: is the trade-mark of our crosslinkable polythene. GETILAN ATP/125 PX: high density chemically crosslinkable polythene for insulated aerial cables. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. We normally suggest our catalyst type MAC/203 HS (red cupper resistant). Adding 5/6% of RESTING HF G 147 GRIGIO the insulation can meet TMX1 Norma. REACTION BETWEEN GRAFTING AND CATALYST: These two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 95/5 Certify: HD 626 S1-TMX1

GETILAN ATP/130 XP is a crosslinkable polythene. GETILAN ATP/130 XP is a high density chemically crosslinkable polythene to produce relatively flexible hoses suitable for hydro-thermosanitary features and also for water conduction. It is a conveniently grafted polythene able to react in presence of moisture and of catalyst. We normally suggest our type MAC/100 PSF. REACTION BETWEEN GRAFTING AND CATALYST These two polythenes, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 95/5 Certify: DIN 16892

GETILAN: is the trade-mark of our crosslinkable polythene. GETILAN ATP/130 XPE: high density chemically crosslinkable polythene for aerial and medium voltage (32 kV) insulation cables. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. We normally suggest our catalyst type MAC/100PSF or MAC/203 HS (red cupper resistant). Adding 5/6% of RESTING HF G 147 the insulation can meet TMX1 Norma. REACTION BETWEEN GRAFTING AND CATALYST: These two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 95/5 Certify: HD 626 S1-TMX1,SAE J1127/J1128,FIAT 7.Z8220 T3 -T3 S,ISO 6722 Class C,LV112

GETILAN: is the trade-mark of our crosslinkabe (SIOPLAS technology) polyolefinic compounds GETILAN ATP/190 3AP: high density antiflame chemically crosslinkable polythene with high temperature index and low HCl content. Suitable for automotive cables insulation. It is a conveniently grafted polythene able to react in presence of moisture and of catalyst. We normally suggest our catalysts type MAC/203 HS or MAC/203 HSL (less reactive). REACTION BETWEEN GRAFTING AND CATALYST: These two polythene, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 96/4 Certify: SAE J1127/J1128,FIAT 7.Z8220 T3 -T3 S,ISO 6722 -LV 112 Class C

GETILAN is the trade-mark of our crosslinkable polythene. GETILAN ATP/190 X 1 SC: high density chemically crosslinkable polythene to produce insulation and sheathing of electrical cables. It is a conveniently grafted polythene able to react in presence of moisture and of catalyst. We normally suggest our type MAC/203 HS or MAC/203 HSL. REACTION BETWEEN GRAFTING AND CATALYST: These two polythenes, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 95/5. The material must be extruded with the correct % of RESTING HA 13 A Certify: SAE J1127/J1128,FIAT 7.Z8220 T3 -T3 S,ISO 6722 Class C,LV 112

GETILAN: is the trade-mark of our crosslinkable(SIOPLAS technology) polyolefinic compounds. GETILAN ATP/194 P: high density chemically crosslinkable polythene for insulated cables. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. We normally suggest our catalyst type MAC/203 HS. REACTION BETWEEN GRAFTING AND CATALYST: These two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 96/4 Suitable for insulation extrusion of cables with size = 2,5 mm2. The type ATP/194 P1 is suitable for all cables size. Certify: SAE J1127/J1128,ISO 6722,LV 112 Class D,FIAT 7-Z8220 T4

GETILAN: is the trade-mark of our crosslinkable(SIOPLAS technology) polyolefinic compounds. GETILAN ATP/195: high density chemically crosslinkable polythene for insulated cables. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. W e normally suggest our catalyst type MAC/203 HS or MAC/203 HSL (less reactive). REACTION BETW EEN GRAFTING AND CATALYST: These two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 96/4 Certify: SAE J1127/J1128,ISO 6722 Class D,LV 112 Class D,FIAT 7-Z8220 T4

GETILAN : is the trade-mark of our crosslinkable(SIOPLAS technology) polyolefinic compounds. GETILAN GPE/134 R : high density chemically crosslinkable polythene for insulated cables. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. We normally suggest our catalyst type MAC/203 HS or MAC/100 HSL (less reactive) REACTION BETWEEN GRAFTING AND CATALYST: These two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 96/4 Certify : ISO 6722 Class D,SAE J1127/J1128,FIAT 7-Z8220 T4

GETILAN: is the trade-mark of our crosslinkable polythene. GETILAN GPE/150 LE-LS: medium density chemically crosslinkable polythene compound for low voltage power cable insulation and sheathing.The LS type is faster on crosslink. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. We normally suggest our catalyst type MAC/100 PSF. Where and when anti-ageing and anti-copper functions are required, we suggest our type MAC/100 SCU or MAC/203 (less reactiv type). REACTION BETWEEN GRAFTING AND CATALYST: These two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 95/5 Certify: BS 7655 GP8,IEC502 XLPE

GETILAN: is the trade-mark of our crosslinkable polythene. GETILAN GPE/150 LP: low density chemically crosslinkable polythene compound for low voltage power cable insulation. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. Where and when anti-ageing and anti-copper functions are required, we suggest our type MAC/100 SCU or MAC/203 HS (less reactiv type). REACTION BETW EEN GRAFTING AND CATALYST: these two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 95/5 Certify: BS 7655 GP8, IEC 60502 XLPE

GETILAN: is the trade-mark of our crosslinkable polythene. GETILAN GPE/400 G: medium density chemically crosslinkable compound for low and medium voltage insulation, suitable also for G7. It is a conveniently grafted polythene able to react in presence of moisture and of catalyst. Normally we suggest our type MAC/202 or MAC/203 (suitable for extrusion temperature lower than 215/220 °C) REACTION BETWEEN GRAFTING AND CATALYST: These two polythenes, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 94/6 Certify: IEC 60502-1 XLPE, EPR/HEPR, CEI 2011 G7, HD 22-1 EI7

GETILAN: is the trade-mark of our crosslinkable polythene. GETILAN GPE/400 XT2N: medium density chemically crosslinkable compound for low voltage power cables insulation and sheathing. It is a conveniently grafted polythene able to react in presence of moisture and of catalyst. We normally suggest our type MAC/203 or MAC/202 both red cupper resistant. REACTION BETWEEN GRAFTING AND CATALYST: These two polythenes, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 95/5 Certify: IEC 502 XLPE,CEI 2011 G7

GETILAN is the trade-mark of our crosslinkable polythene GETILAN GPE/409 AFM is a chemically crosslinkable low smoke and low toxicity halogen free flame retardant compound for insulation and sheathing. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. We normally suggest our catalyst type MAC/100 PSF. Where and when anti-ageing and anti-copper functions are required, we suggest our type MAC/203 or MAC/203 HSL (less in reaction). REACTION BETWEEN GRAFTING AND CATALYST These two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 97/3

GETILAN is the trade-mark of our crosslinkable polythene. GETILAN GPE/410 AF is a chemically crosslinkable low smoke and low toxicity halogen free flame retardant compound for insulation and sheathing. It is a conveniently grafted polythene able to react in presence of moisture and of a catalyst. We normally suggest our catalyst type MAC/100 PSF. Where and when anti-ageing and anti-copper functions are required, we suggest our type MAC/202 or MAC/308 PSL (less in reaction). REACTION BETWEEN GRAFTING AND CATALYST These two compounds, separately stored, must be mixed before starting extrusion in the ratio: GRAFTING/CATALYST 97 / 3