1. The document is a material safety data sheet for Niax® silicone L-540, which is used in polyurethane foam manufacturing.
2. It contains polyalkylene glycol, polyalkyleneoxidemethylsiloxane copolymer, polyalkylene glycol, and octamethylcyclotetrasiloxane.
3. The product may cause eye irritation and contains a component that may cause reproductive effects based on animal data. Proper personal protective equipment should be used when handling.
My presentation on resin transfer molding. Not much description included. For reference i would recommend
" Composite manufacturing by Sanjay Mazumdar".
Prepreg is reinforcing fabric pre-impregnated with epoxy resin and curing agent. It requires heat and pressure to cure the laminate. Prepregs offer advantages like maximum strength, uniform thickness, less mess and waste, and shorter curing times compared to hand-layup. However, prepregs cost more and have a limited shelf life requiring storage at cooler temperatures. Proper curing requires a heat source like an oven to reach 270F and sustain it for 4 hours under vacuum bagging.
Injection moulding is a manufacturing technique for making parts from both thermoplastic and thermosetting. Plastic material in production molten plastic is injected at high pressure into a mould.
Desenvolvimentos Recentes em Surfactantes Catiônicos para Fabric Care e Car C...Revista H&C
The document discusses recent developments in cationic surfactants used for fabric and car care. It provides an overview of traditional applications of cationic surfactants and their property of substantivity. It then focuses on their use in fabric softeners, describing how rinse cycle and dryer sheet softeners are manufactured and how they work by depositing positively charged molecules onto negatively charged fibers. Finally, it introduces a new development - a room temperature dispersible cationic surfactant for fabric softeners that does not require heating during production or use, improving efficiency.
Compression and transfer molding are processes used primarily for thermosetting plastics. In compression molding, the plastic charge is placed directly into a heated mold cavity and formed under pressure. Transfer molding injects melted plastic into molds through narrow channels. Both processes form parts like dishware, pot handles, ski components, and rubber shoe soles under heat and pressure in heated molds.
Blow molding is a plastic processing technique where a heated plastic material is extruded into a hollow shape called a parison, which is then placed inside a mold and inflated with air until it takes the shape of the mold cavity. There are different types of blow molding depending on how the parison is formed, such as extrusion blow molding where plastic is continuously extruded and cut into parisons. Common materials used for blow molding include HDPE, LDPE, PP, PVC, and PET. Key factors that affect blow molding include the parison characteristics, inflation pressure, mold design, and blow ratio.
My presentation on resin transfer molding. Not much description included. For reference i would recommend
" Composite manufacturing by Sanjay Mazumdar".
Prepreg is reinforcing fabric pre-impregnated with epoxy resin and curing agent. It requires heat and pressure to cure the laminate. Prepregs offer advantages like maximum strength, uniform thickness, less mess and waste, and shorter curing times compared to hand-layup. However, prepregs cost more and have a limited shelf life requiring storage at cooler temperatures. Proper curing requires a heat source like an oven to reach 270F and sustain it for 4 hours under vacuum bagging.
Injection moulding is a manufacturing technique for making parts from both thermoplastic and thermosetting. Plastic material in production molten plastic is injected at high pressure into a mould.
Desenvolvimentos Recentes em Surfactantes Catiônicos para Fabric Care e Car C...Revista H&C
The document discusses recent developments in cationic surfactants used for fabric and car care. It provides an overview of traditional applications of cationic surfactants and their property of substantivity. It then focuses on their use in fabric softeners, describing how rinse cycle and dryer sheet softeners are manufactured and how they work by depositing positively charged molecules onto negatively charged fibers. Finally, it introduces a new development - a room temperature dispersible cationic surfactant for fabric softeners that does not require heating during production or use, improving efficiency.
Compression and transfer molding are processes used primarily for thermosetting plastics. In compression molding, the plastic charge is placed directly into a heated mold cavity and formed under pressure. Transfer molding injects melted plastic into molds through narrow channels. Both processes form parts like dishware, pot handles, ski components, and rubber shoe soles under heat and pressure in heated molds.
Blow molding is a plastic processing technique where a heated plastic material is extruded into a hollow shape called a parison, which is then placed inside a mold and inflated with air until it takes the shape of the mold cavity. There are different types of blow molding depending on how the parison is formed, such as extrusion blow molding where plastic is continuously extruded and cut into parisons. Common materials used for blow molding include HDPE, LDPE, PP, PVC, and PET. Key factors that affect blow molding include the parison characteristics, inflation pressure, mold design, and blow ratio.
Dip casting is a process that involves repeatedly dipping an object into a liquid material to coat it in a thin layer. The dip casting process works by dipping a hot mold or metal object into room temperature liquid plastic or low-melting metals like lead, tin, and zinc, then quickly withdrawing it to leave a thin coating. Dip casting is used in industries like metal, rubber, and plastics to form thin coatings and make products like tool handles, gloves, balloons, and electronic parts for insulation.
The document discusses the process of quenching metals and the factors that influence it. It describes the three stages of quenching - vapor phase, nucleate boiling phase, and convection phase. It also discusses the selection and composition of quench oils, how they affect the cooling rate and properties of quenched metals. The additive packages in quench oils are described as improving thermal stability and cooling performance.
Sheet molding compound (SMC) is a composite material made of long glass fibers, minerals, and thermosetting resin formed into a malleable sheet. SMC contains 10-60% glass fiber reinforcement that is longer than in bulk molding compound, between 1/2-1 inch. To make SMC, a resin-coated film is layered with chopped fiber strands and pressed between rollers to embed the fibers. The layered sandwich cures while wound, then the film is removed and SMC is molded. SMC offers high strength, corrosion resistance, and electrical insulation for uses like electrical parts housings and medical and dental equipment.
Vacuum bag molding is an open mold technique used for thermoset composites involving hand layup and vacuum bagging. Vacuum bagging uses a vacuum bag to apply even pressure over composite materials to consolidate them. It involves placing release fabrics, breather materials, and vacuum bags over molds with resin-coated components. Applying vacuum pressure draws air out and uses atmospheric pressure to hold components in place until the resin cures.
KKKM2833 Manufacturing Process of Tyre (Group Tyred)
Department of Mechanical & Manufacturing Engineering
Faculty of Engineering & Built Environment
The National University of Malaysia
Team's Member
1) Muhammad Aiman Haikal Bin Azlan (Slide Editor)
2) Ahmad Qayyum Hafiez Bin Ahmad Fisal (Slide Editor)
3) Muhammad Hadif Bin Nor Azli (Slide Editor & Video Editor)
4) Nurdiyana Ayunie Binti Mohammad Razak (Information & Data Collector)
5) Vighrama A/L Magesan ( Information & Data Collector)
This document provides an overview of rubber materials, including:
1. Natural rubber comes from latex extracted from rubber trees, while synthetic rubber is made through polymerization processes.
2. Rubber is classified based on its source and monomers used. The main types discussed are natural rubber, styrene-butadiene rubber, and chloroprene.
3. Rubber undergoes processes like mastication to break down polymer chains, compounding to add ingredients, and forming processes like calendaring, coating, extrusion, and molding to produce rubber products.
This document discusses different types of polymer coatings used for protective coatings, focusing on epoxy coatings. It describes the main types of epoxy resins - Bisphenol A, Bisphenol F, and Novolac - and how their chemical structures affect properties like viscosity, functionality, and chemical resistance. Bisphenol A is most common but has lower resistance, while Novolac has the highest resistance due to its highly crosslinked structure. The document also outlines different curing agents used for epoxies and how they impact characteristics such as reactivity, blushing, flexibility, and resistance.
This document discusses limits, fits, tolerances, and surface roughness in manufacturing. It defines key terms like nominal size, basic size, and actual size. Limits refer to the maximum and minimum permissible sizes of a component. Tolerances represent the allowable variation between the upper and lower limits. There are different types of fits between mating parts like clearance, interference, and transition fits. Surface roughness is evaluated based on the height and mean roughness of micro-irregularities on a surface. Geometric tolerances also specify allowable variations in a feature's shape. The document provides examples of selecting fits and tolerances for bearing components on a rotating shaft.
The document discusses piston manufacturing processes and materials. It describes how pistons transform thermal energy from combustion into rotational motion. Various piston head and skirt designs are presented. Pistons can be made of aluminum via casting or forging, with different properties for each. Piston rings are often made of heat-treated nodular cast iron, chromium steel, or molybdenum alloys to provide durability and reduce wear and scuffing. Cylinder liners are centrifugally cast from materials like iron and aluminum alloys to form the inner cylinder surface with properties like wear resistance.
Compression molding is a process that molds material into a confined shape by applying pressure and usually heat. The process involves placing a charge in a mold cavity, closing the mold, applying pressure to squeeze the material and fill the cavity, and heating under pressure to cure the material. There are two main stages - plastication where the material is compressed and heated, and flow once the yield stress is exceeded allowing the mold to fill. Parameters like material quantity, pressure, temperature and cure time must be controlled. Common applications include dinnerware, buttons, and automotive parts.
Basic of tool room and types of moulds [bharat jiyani]BHARAT JIYANI
The document discusses different types of molds used in machine shops including two plate molds, three plate molds, split molds, compression molds, transfer molds, hot runner injection molds, hand molds, and blow molds. It also describes the compression molding and blow molding processes and includes diagrams of mold layouts showing the different plates that make up the molds.
Injection molding is a manufacturing process that uses molds to produce plastic or rubber parts. Molds are hollow blocks that give the part its shape and allow it to cool. Thermoplastics can be molded repeatedly while thermosetting plastics set permanently after one molding. Injection molding machines consist of a hopper, barrel with a reciprocating screw, nozzle, and molds. The process involves melting plastic in the heated barrel and injecting it into the mold under pressure before allowing it to cool into the final shape.
This document discusses friction, friction measurement techniques, wear, and wear measurement techniques. It describes four common methods for measuring friction: the weight ratio method, spring balance method, tilted plane method, and clamping method. It also outlines six wear measurement techniques: the dry sand rubber wheel method, pin on drum method, linear tribo machine method, block on ring method, pin on disc method, and block on disc method. The key applications and standards for each technique are provided.
Extrusion is a high-volume manufacturing process where plastic material is melted and forced through a die to create a continuous profile. There are various types of extrusion processes depending on the final product, such as sheet/film extrusion, tubing extrusion, and wire coating. Extruders use either single or twin screws to melt, mix, and convey the plastic material. The processing section of the extruder subjects the material to different conditions like melting, mixing, venting and homogenization. Wear of extruder components can reduce efficiency over time. Final products are cut into pellets using various pelletizing systems after exiting the die.
it is PDF are typed of myself. study triks & short & sweet (Technical manual) Of Diploma in Plastics technology(DPT-DPMT). All machine knowlage in plastics processing.
Er. Naresh Dhaker
(8890881858)
(CIPET JAIPUR)
Extrusion molding is a process that uses heat and pressure to form plastic into continuous lengths with uniform cross-sections like pipes, rods, or sheets. The plastic is fed into an extruder which heats and melts it before forcing it through a die. The shape of the die determines the shape of the extruded plastic. Common products made through extrusion molding include pipes, hoses, siding, fencing, deck railings, and plastic bags.
Here are some key industries and products that rely on blow molding for packaging:
- Beverage industry: Water bottles, soda bottles, juice bottles
- Food industry: Milk jugs, yogurt and butter tubs, condiment bottles
- Personal care industry: Shampoo, lotion and cosmetic bottles
- Household products industry: Cleaning product bottles, trash bins
- Automotive industry: Automotive fluid containers like oil and antifreeze bottles
- Medical industry: Saline solution bags, IV bags and tubing, medicine bottles
An injection mold consists of several components that allow molten plastic to be formed into a discrete part shape. The main components include the cavity side, core side, nozzle/sprue bushing, feed system, cavities, cooling system, guide pillars/bushings, ejector system, and ejector plate system. The cavity side is on the stationary side of the press and contains the gate and sprue runner. The core side is on the moving side and contains the core onto which the part forms.
1. The document is a material safety data sheet for Niax® Stannous Octoate D-19, which is 97% stannous octoate.
2. Stannous octoate may irritate the respiratory system, skin and eyes, and cause allergic skin reactions. Inhalation of mist or spray can irritate the respiratory tract. Skin contact can cause moderate irritation and allergic skin reactions with repeated exposure.
3. The product is a liquid with a flash point above 142°C. It is slightly toxic if swallowed and may cause liver damage with repeated overexposure.
This document is a material safety data sheet for a polycarbonate compound called ENV14-A1514R-1000. It consists of translucent, cylindrical plastic pellets that are primarily high molecular weight polymers. The product does not contain any reportable hazardous ingredients. It can burn if exposed to fire and melting plastic can cause severe burns. Proper ventilation should be used if the pellets are melted during processing to avoid inhalation of fumes, which may cause irritation. The product is generally stable and not reactive under recommended storage conditions.
Dip casting is a process that involves repeatedly dipping an object into a liquid material to coat it in a thin layer. The dip casting process works by dipping a hot mold or metal object into room temperature liquid plastic or low-melting metals like lead, tin, and zinc, then quickly withdrawing it to leave a thin coating. Dip casting is used in industries like metal, rubber, and plastics to form thin coatings and make products like tool handles, gloves, balloons, and electronic parts for insulation.
The document discusses the process of quenching metals and the factors that influence it. It describes the three stages of quenching - vapor phase, nucleate boiling phase, and convection phase. It also discusses the selection and composition of quench oils, how they affect the cooling rate and properties of quenched metals. The additive packages in quench oils are described as improving thermal stability and cooling performance.
Sheet molding compound (SMC) is a composite material made of long glass fibers, minerals, and thermosetting resin formed into a malleable sheet. SMC contains 10-60% glass fiber reinforcement that is longer than in bulk molding compound, between 1/2-1 inch. To make SMC, a resin-coated film is layered with chopped fiber strands and pressed between rollers to embed the fibers. The layered sandwich cures while wound, then the film is removed and SMC is molded. SMC offers high strength, corrosion resistance, and electrical insulation for uses like electrical parts housings and medical and dental equipment.
Vacuum bag molding is an open mold technique used for thermoset composites involving hand layup and vacuum bagging. Vacuum bagging uses a vacuum bag to apply even pressure over composite materials to consolidate them. It involves placing release fabrics, breather materials, and vacuum bags over molds with resin-coated components. Applying vacuum pressure draws air out and uses atmospheric pressure to hold components in place until the resin cures.
KKKM2833 Manufacturing Process of Tyre (Group Tyred)
Department of Mechanical & Manufacturing Engineering
Faculty of Engineering & Built Environment
The National University of Malaysia
Team's Member
1) Muhammad Aiman Haikal Bin Azlan (Slide Editor)
2) Ahmad Qayyum Hafiez Bin Ahmad Fisal (Slide Editor)
3) Muhammad Hadif Bin Nor Azli (Slide Editor & Video Editor)
4) Nurdiyana Ayunie Binti Mohammad Razak (Information & Data Collector)
5) Vighrama A/L Magesan ( Information & Data Collector)
This document provides an overview of rubber materials, including:
1. Natural rubber comes from latex extracted from rubber trees, while synthetic rubber is made through polymerization processes.
2. Rubber is classified based on its source and monomers used. The main types discussed are natural rubber, styrene-butadiene rubber, and chloroprene.
3. Rubber undergoes processes like mastication to break down polymer chains, compounding to add ingredients, and forming processes like calendaring, coating, extrusion, and molding to produce rubber products.
This document discusses different types of polymer coatings used for protective coatings, focusing on epoxy coatings. It describes the main types of epoxy resins - Bisphenol A, Bisphenol F, and Novolac - and how their chemical structures affect properties like viscosity, functionality, and chemical resistance. Bisphenol A is most common but has lower resistance, while Novolac has the highest resistance due to its highly crosslinked structure. The document also outlines different curing agents used for epoxies and how they impact characteristics such as reactivity, blushing, flexibility, and resistance.
This document discusses limits, fits, tolerances, and surface roughness in manufacturing. It defines key terms like nominal size, basic size, and actual size. Limits refer to the maximum and minimum permissible sizes of a component. Tolerances represent the allowable variation between the upper and lower limits. There are different types of fits between mating parts like clearance, interference, and transition fits. Surface roughness is evaluated based on the height and mean roughness of micro-irregularities on a surface. Geometric tolerances also specify allowable variations in a feature's shape. The document provides examples of selecting fits and tolerances for bearing components on a rotating shaft.
The document discusses piston manufacturing processes and materials. It describes how pistons transform thermal energy from combustion into rotational motion. Various piston head and skirt designs are presented. Pistons can be made of aluminum via casting or forging, with different properties for each. Piston rings are often made of heat-treated nodular cast iron, chromium steel, or molybdenum alloys to provide durability and reduce wear and scuffing. Cylinder liners are centrifugally cast from materials like iron and aluminum alloys to form the inner cylinder surface with properties like wear resistance.
Compression molding is a process that molds material into a confined shape by applying pressure and usually heat. The process involves placing a charge in a mold cavity, closing the mold, applying pressure to squeeze the material and fill the cavity, and heating under pressure to cure the material. There are two main stages - plastication where the material is compressed and heated, and flow once the yield stress is exceeded allowing the mold to fill. Parameters like material quantity, pressure, temperature and cure time must be controlled. Common applications include dinnerware, buttons, and automotive parts.
Basic of tool room and types of moulds [bharat jiyani]BHARAT JIYANI
The document discusses different types of molds used in machine shops including two plate molds, three plate molds, split molds, compression molds, transfer molds, hot runner injection molds, hand molds, and blow molds. It also describes the compression molding and blow molding processes and includes diagrams of mold layouts showing the different plates that make up the molds.
Injection molding is a manufacturing process that uses molds to produce plastic or rubber parts. Molds are hollow blocks that give the part its shape and allow it to cool. Thermoplastics can be molded repeatedly while thermosetting plastics set permanently after one molding. Injection molding machines consist of a hopper, barrel with a reciprocating screw, nozzle, and molds. The process involves melting plastic in the heated barrel and injecting it into the mold under pressure before allowing it to cool into the final shape.
This document discusses friction, friction measurement techniques, wear, and wear measurement techniques. It describes four common methods for measuring friction: the weight ratio method, spring balance method, tilted plane method, and clamping method. It also outlines six wear measurement techniques: the dry sand rubber wheel method, pin on drum method, linear tribo machine method, block on ring method, pin on disc method, and block on disc method. The key applications and standards for each technique are provided.
Extrusion is a high-volume manufacturing process where plastic material is melted and forced through a die to create a continuous profile. There are various types of extrusion processes depending on the final product, such as sheet/film extrusion, tubing extrusion, and wire coating. Extruders use either single or twin screws to melt, mix, and convey the plastic material. The processing section of the extruder subjects the material to different conditions like melting, mixing, venting and homogenization. Wear of extruder components can reduce efficiency over time. Final products are cut into pellets using various pelletizing systems after exiting the die.
it is PDF are typed of myself. study triks & short & sweet (Technical manual) Of Diploma in Plastics technology(DPT-DPMT). All machine knowlage in plastics processing.
Er. Naresh Dhaker
(8890881858)
(CIPET JAIPUR)
Extrusion molding is a process that uses heat and pressure to form plastic into continuous lengths with uniform cross-sections like pipes, rods, or sheets. The plastic is fed into an extruder which heats and melts it before forcing it through a die. The shape of the die determines the shape of the extruded plastic. Common products made through extrusion molding include pipes, hoses, siding, fencing, deck railings, and plastic bags.
Here are some key industries and products that rely on blow molding for packaging:
- Beverage industry: Water bottles, soda bottles, juice bottles
- Food industry: Milk jugs, yogurt and butter tubs, condiment bottles
- Personal care industry: Shampoo, lotion and cosmetic bottles
- Household products industry: Cleaning product bottles, trash bins
- Automotive industry: Automotive fluid containers like oil and antifreeze bottles
- Medical industry: Saline solution bags, IV bags and tubing, medicine bottles
An injection mold consists of several components that allow molten plastic to be formed into a discrete part shape. The main components include the cavity side, core side, nozzle/sprue bushing, feed system, cavities, cooling system, guide pillars/bushings, ejector system, and ejector plate system. The cavity side is on the stationary side of the press and contains the gate and sprue runner. The core side is on the moving side and contains the core onto which the part forms.
1. The document is a material safety data sheet for Niax® Stannous Octoate D-19, which is 97% stannous octoate.
2. Stannous octoate may irritate the respiratory system, skin and eyes, and cause allergic skin reactions. Inhalation of mist or spray can irritate the respiratory tract. Skin contact can cause moderate irritation and allergic skin reactions with repeated exposure.
3. The product is a liquid with a flash point above 142°C. It is slightly toxic if swallowed and may cause liver damage with repeated overexposure.
This document is a material safety data sheet for a polycarbonate compound called ENV14-A1514R-1000. It consists of translucent, cylindrical plastic pellets that are primarily high molecular weight polymers. The product does not contain any reportable hazardous ingredients. It can burn if exposed to fire and melting plastic can cause severe burns. Proper ventilation should be used if the pellets are melted during processing to avoid inhalation of fumes, which may cause irritation. The product is generally stable and not reactive under recommended storage conditions.
This document summarizes the material safety data sheet for EarthTec, which contains copper sulfate. It lists copper sulfate as a hazardous ingredient between 18.25-21.75% and identifies health hazards such as corrosiveness and irritation from exposure through inhalation, absorption, and ingestion. The document provides first aid measures and recommends the use of protective equipment like gloves, goggles, and respirators when handling the product. It also includes information on physical properties, reactivity, disposal considerations, and transportation classification.
This material safety data sheet provides information on EP-600&EP-600S, a two-part conductive epoxy made up of silver, epoxy resins, and other proprietary modifiers. It lists the product ingredients and their exposure limits. It describes the product as having low volatility and no established vapor pressure. It also details fire and explosion hazards, necessary protective equipment, and spill response procedures for safe handling of the product.
Curry N500 GS is a naturally occurring iron oxide pigment composed mainly of goethite (75% by weight) with smaller amounts of quartz (6%) and pyrolucite (2%). It poses little health risk but may cause minor irritation upon contact with skin, eyes, or if inhaled or ingested. Prolonged inhalation of silica dust poses a risk of developing silicosis. The product is stable and non-flammable. Spills should be cleaned up through vacuuming or scooping and wetting to reduce dust. Personal protective equipment including dust masks and safety glasses is recommended when exposure limits could be exceeded.
Material Safety Data Sheet (MSDS) for Dermasome-Ubq (NE) a Proliposome formulation manufactured by Encapsula NanoSciences that is used specifically in the cosmetic industry. The brand name is Dermasome-Ubq (NE). The Dermasome-Ubq (NE) formulation is composed of unsaturated phospholipids and it does not contain alcohol. The proliposome formulation forms liposomes containing CoQ10 upon dilution with water. During the dilution process water soluble active ingredients can be encapsulated inside the liposomes or liposoluble active ingredients can be incorporated into the lipid bilayers.
This safety data sheet provides information on LOCTITE LB 8021 400ML EFAT. It identifies the product, supplier contact information, product hazards, and composition. The main hazards are that it is an extremely flammable aerosol and pressurized container that may burst if heated. It contains butane, propane, and pentane. Exposure controls and protective equipment are recommended for handling.
This document provides a material safety data sheet for Redwood GS, which is a granulated burnt umber pigmenting agent composed primarily of goethite, quartz, and pyrolusite. It lists the product identification and manufacturer, composition, potential health effects from inhalation or contact including mechanical irritation and possible silicosis from long term exposure, and safety guidelines for handling, storage, exposure control, accidental release, and regulations. Personal protective equipment including respirator use is recommended if exposure limits are exceeded.
This safety data sheet provides information on Thymox Disinfectant Spray. It lists the product name and use, supplier contact information, and hazardous identification. The product contains thymol and is a clear, colorless liquid with a spicy scent. It is non-flammable and biodegradable. Exposure can cause eye and skin irritation. Proper handling and storage procedures are outlined to prevent exposure and accidental release.
Material Safety Data Sheet (MSDS) for Cosmesome (NE) a Proliposome formulation manufactured by Encapsula NanoSciences that is used specifically in the cosmetic industry. The brand name is Cosmesome (NE). The Cosmesome (NE) formulation is composed of unsaturated phospholipids and it does not contain alcohol. The proliposome formulation forms liposomes upon dilution with water. During the dilution process water soluble active ingredients can be encapsulated inside the liposomes or liposoluble active ingredients can be incorporated into the lipid bilayers.
This document provides safety information for a tyre protector sealant. It summarizes the product identification and manufacturer. The product is not classified as hazardous, but prolonged skin contact may cause irritation. Ingestion may cause renal damage. In a fire, the product will burn and release acrid smoke and carbonyl compounds. Spillages should be cleaned up with absorbent material. Personal protective equipment like gloves and goggles are recommended when handling. The product is a liquid that is mostly odorless and soluble in water.
New Riverside Ochre Company's MSDS for Umber, Burnt Umber NRO Brown, Burnt Umber NRO Umber, Burnt Umber 3M, Burnt Umber CM, Umber RM, Umber BK manganese enriched form of goethite naturally occurring, inorganic iron oxide pigment
This material safety data sheet provides information on Foamy Q&A, a disinfectant cleaner produced by Spartan Chemical Company. It contains several hazardous ingredients including phosphoric acid, 2-butoxyethanol, and hydroxyacetic acid. The product is a purple liquid with a citrus/floral fragrance. It can cause severe eye and skin irritation upon contact. Inhalation of the spray mist may also cause respiratory irritation. Proper personal protective equipment should be worn when handling. Spills should be cleaned up promptly with water and disposed of according to local regulations.
Material Safety Data Sheet (MSDS) for Dermasome (NE) a Proliposome formulation manufactured by Encapsula NanoSciences that is used specifically in the cosmetic industry. The brand name is Dermasome (NE). The Dermasome (NE) formulation is composed of unsaturated phospholipids and it does not contain alcohol. The proliposome formulation forms liposomes upon dilution with water. During the dilution process water soluble active ingredients can be encapsulated inside the liposomes or liposoluble active ingredients can be incorporated into the lipid bilayers.
www.envimart.vn - ĐT: 028 77727979 - sales@envimart.vn - Nền tảng cung cấp thiết bị, vật tư ngành nước và môi trường. Chuyên cung cấp vật tư cho dự án xử lý nước sạch, nước thải và môi trường. Envimart luôn đồng hành, tin cậy với đối tác nhà thầu, nhà tích hợp và người sử dụng.
Website: https://www.customtintsolutions.com/cities/austin/
Custom Tint Solutions Window Film Austin.
This file is from Austin, Texas. It contains information about window tinting. All information and rights to the material are copyrighted by the company to whom it belongs to. Thank you for viewing. Custom Tint Solutions hopes you enjoy.
Material Safety Data Sheet (MSDS) for CosmoMix-Ubq. Powderized saturated lipid formulation manufactured by Encapsula NanoSciences that is used specifically in the cosmetic industry. The brand name is CosmoMix-Ubq. The CosmoMix-Ubq formulation is composed of saturated phospholipids.
This document provides a sample Material Safety Data Sheet (MSDS) for biodiesel. It summarizes key information about the product including its composition, potential health effects from exposure, first aid measures, firefighting procedures, handling and storage recommendations, and regulatory information. The biodiesel is described as a pale yellow liquid with a mild odor consisting of methyl esters from lipid sources.
This document provides a sample Material Safety Data Sheet (MSDS) for biodiesel. It summarizes key information about the product including its composition, potential health effects from exposure, first aid measures, firefighting procedures, handling and storage recommendations, and regulatory information. The biodiesel is described as a pale yellow liquid with a mild odor consisting of methyl esters from lipid sources.
La tabla muestra la compatibilidad química entre diferentes sustancias numeradas del 1 al 9. Las sustancias son generalmente compatibles para su almacenamiento juntas, aunque algunas requieren precauciones o almacenes separados debido a posibles incompatibilidades individuales.
El documento describe los diferentes códigos y colores utilizados en señalización de seguridad, como el diamante de peligros NFPA, códigos de riesgo de reactividad, inflamabilidad y salud, y colores para tuberías, etiquetas de sustancias peligrosas, y señales de prohibición, obligación, advertencia, equipos contra incendios y salvamento. Explica las formas, colores de fondo y pictogramas utilizados en cada tipo de señalización.
El documento habla sobre el tratamiento de intoxicaciones. Primero, se debe asegurar que el paciente esté respirando y tenga pulso antes de buscar un antídoto. Luego, se debe evaluar la vía aérea, función respiratoria, cardiovascular y neurológica del paciente, y tratar cualquier complicación. Finalmente, se discuten métodos para descontaminar al paciente y aumentar la eliminación de toxinas como hemodiálisis o dosis repetidas de carbón activado.
Este documento proporciona información sobre los primeros auxilios para diferentes tipos de pacientes, incluidos aquellos con trauma, enfermedad o obstrucción de las vías respiratorias. Explica cómo evaluar a un paciente, incluida la evaluación primaria y secundaria, y cómo medir signos vitales como el pulso, la respiración y la presión arterial. También describe los procedimientos para tratar una obstrucción de las vías respiratorias, incluidas las compresiones abdominales y torácicas para bebés, ni
Este documento proporciona información sobre extintores portátiles, incluyendo su definición, partes, clasificación, tipos, selección, inspección, mantenimiento y uso. Explica el triángulo del fuego, mecanismos de extinción de diferentes agentes, y provee cuadros sobre la selección de extintores según el tipo de combustible. Además, destaca la importancia de la ubicación, señalización e inspecciones periódicas para garantizar la funcionalidad y seguridad de los extintores.
El documento describe las causas más comunes de incendios, medidas preventivas y procedimientos para controlar incendios. Identifica los tres elementos necesarios para un incendio (combustible, oxígeno y calor) y las clases de fuego. Explica cómo usar extintores de forma segura y los pasos a seguir ante un principio de incendio. También incluye información sobre planes de evacuación y prevención de incendios en el hogar.
This document contains requirements for the construction and testing of packagings for transporting dangerous goods, excluding those for radioactive or pressure receptacle transport. It provides codes for designating packaging types based on material and category. Detailed requirements are given for different packaging kinds (drums, jerricans, boxes, bags, composite packagings). Packagings must be tested and manufactured under quality control. Marking requirements include the UN symbol, packaging type code, test levels passed, year of manufacture, and manufacturer identification.
This document contains provisions for the packing and transport of dangerous goods in packagings, including intermediate bulk containers (IBCs) and large packagings. It specifies that packagings must be strong enough to withstand normal transport conditions without leakage and be properly closed. It also provides requirements for inner and outer packagings, filling limits, compatibility between substances, closures, pressure relief when needed, and requalification testing.
This document contains the table of contents for a two volume guide on the transport of dangerous goods. Volume I covers general provisions, classification, dangerous goods lists, and exceptions. Volume II covers packing and tank provisions, consignment procedures, and requirements for packaging construction and testing. The table of contents provides an overview of the chapters and content covered in each volume.
The document summarizes proposed changes to the ANSI Z400.1 standard for material safety data sheets. Key changes include rearranging some sections, adding new data types to be included, increasing consistency with international standards like GHS, and simplifying language and examples. The standard will go through ANSI's canvassing process in 2003 with a goal of publication of the revised standard by late 2003.
This document contains provisions for transport operations by all modes of transport. It discusses general requirements for classification, packaging, documentation and vehicle loading for dangerous goods. Specific requirements addressed include segregation of incompatible goods, securing packages, and provisions for transporting explosives of different compatibility groups separately. The document provides operational guidance to help ensure dangerous goods can be transported safely according to regulations.
This document discusses procedures for consignment of dangerous goods, including marking, labeling, documentation, and placarding requirements. Specifically:
- It sets forth provisions for authorizing consignments and providing advance notifications, as well as requirements for marking, labeling, and describing dangerous goods on transport documents.
- Overpacks must be marked with the word "OVERPACK" and proper shipping names/UN numbers for the contents, unless these are already visible. Individual packages must still comply with regulations.
- Empty packagings that previously contained dangerous goods must be identified, marked, labeled and placarded as required for those goods, unless steps are taken to nullify any hazard.
- When two or
This document provides an alphabetical index of substances and articles listed in the Dangerous Goods List in Chapter 3.2. It contains notes on how the alphabetical order was determined and how entries should be interpreted. The index consists of alphabetical listings of proper shipping names and some synonyms, with references between related names. It is intended to help users look up dangerous goods in the list.
This document provides a list of generic and N.O.S. (not otherwise specified) proper shipping names organized by hazard class and division. It includes general entries covering groups of substances or articles having common dangerous properties, as well as specific entries for technical groups. The most specific applicable name must always be used to properly classify and describe the substance or article being shipped.
This document contains information about dangerous goods lists, special provisions, and exceptions for transporting hazardous materials. It discusses the scope of dangerous goods covered, proper shipping names, generic entries, and requirements for listing constituents of mixtures. Key points include that the list aims to cover commonly transported dangerous substances, substances must meet classification criteria to be transported under a generic entry, and mixtures described by certain entries need to list only the two main hazard-causing constituents.
This document discusses the classification of dangerous goods for transport. It covers:
1. The 9 classes of dangerous goods and their divisions based on hazard type. Classes include explosives, gases, flammable liquids, flammables solids, oxidizing substances, toxic substances, radioactive material, corrosives, and miscellaneous dangerous substances.
2. Assignment of proper shipping names and UN numbers to dangerous goods based on their hazard classification and composition. Generic and "not otherwise specified" entries are used when goods are not specifically listed.
3. Determining the proper shipping name and classification for mixtures containing a predominant substance on the dangerous goods list along with other components.
This document provides the general provisions, definitions, training requirements, and security provisions for the transport of dangerous goods by all modes of transport. It covers the scope and application of the regulations, dangerous goods that are forbidden from transport, and definitions of key terms used throughout the regulations such as aircraft, approval, bulk container, and packaging. The document also notes that certain dangerous goods may be acceptable in international mail subject to national authority provisions.
This document discusses recommendations for transporting dangerous goods. It provides 3 key points:
1) The recommendations aim to ensure safety during transport of dangerous goods through a system of classification, packing requirements, labeling, and documentation. This system allows for simplified transport and handling while reducing risks.
2) Dangerous goods are regulated to prevent accidents and damage during transport. Regulations balance safety with allowing movement of goods, excluding only the most dangerous.
3) The recommendations include model regulations covering classification principles, lists of dangerous goods, packing standards, testing procedures, marking, labeling, transport documents, and special requirements for certain classes.
Este documento contiene información sobre camiones cisternas, personal y ayudantes de la empresa DURAND. Incluye detalles como placas de los vehículos, capacidad, fechas de seguros y certificados. También proporciona datos personales del personal como nombres, números de documento, licencias de conducir, inscripciones y exámenes médicos. El estado de los vehículos, personal y ayudantes se indica como aprobado, pendiente u ok.
Gender and Mental Health - Counselling and Family Therapy Applications and In...PsychoTech Services
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Philippine Edukasyong Pantahanan at Pangkabuhayan (EPP) CurriculumMJDuyan
(𝐓𝐋𝐄 𝟏𝟎𝟎) (𝐋𝐞𝐬𝐬𝐨𝐧 𝟏)-𝐏𝐫𝐞𝐥𝐢𝐦𝐬
𝐃𝐢𝐬𝐜𝐮𝐬𝐬 𝐭𝐡𝐞 𝐄𝐏𝐏 𝐂𝐮𝐫𝐫𝐢𝐜𝐮𝐥𝐮𝐦 𝐢𝐧 𝐭𝐡𝐞 𝐏𝐡𝐢𝐥𝐢𝐩𝐩𝐢𝐧𝐞𝐬:
- Understand the goals and objectives of the Edukasyong Pantahanan at Pangkabuhayan (EPP) curriculum, recognizing its importance in fostering practical life skills and values among students. Students will also be able to identify the key components and subjects covered, such as agriculture, home economics, industrial arts, and information and communication technology.
𝐄𝐱𝐩𝐥𝐚𝐢𝐧 𝐭𝐡𝐞 𝐍𝐚𝐭𝐮𝐫𝐞 𝐚𝐧𝐝 𝐒𝐜𝐨𝐩𝐞 𝐨𝐟 𝐚𝐧 𝐄𝐧𝐭𝐫𝐞𝐩𝐫𝐞𝐧𝐞𝐮𝐫:
-Define entrepreneurship, distinguishing it from general business activities by emphasizing its focus on innovation, risk-taking, and value creation. Students will describe the characteristics and traits of successful entrepreneurs, including their roles and responsibilities, and discuss the broader economic and social impacts of entrepreneurial activities on both local and global scales.
How to Manage Reception Report in Odoo 17Celine George
A business may deal with both sales and purchases occasionally. They buy things from vendors and then sell them to their customers. Such dealings can be confusing at times. Because multiple clients may inquire about the same product at the same time, after purchasing those products, customers must be assigned to them. Odoo has a tool called Reception Report that can be used to complete this assignment. By enabling this, a reception report comes automatically after confirming a receipt, from which we can assign products to orders.
THE SACRIFICE HOW PRO-PALESTINE PROTESTS STUDENTS ARE SACRIFICING TO CHANGE T...indexPub
The recent surge in pro-Palestine student activism has prompted significant responses from universities, ranging from negotiations and divestment commitments to increased transparency about investments in companies supporting the war on Gaza. This activism has led to the cessation of student encampments but also highlighted the substantial sacrifices made by students, including academic disruptions and personal risks. The primary drivers of these protests are poor university administration, lack of transparency, and inadequate communication between officials and students. This study examines the profound emotional, psychological, and professional impacts on students engaged in pro-Palestine protests, focusing on Generation Z's (Gen-Z) activism dynamics. This paper explores the significant sacrifices made by these students and even the professors supporting the pro-Palestine movement, with a focus on recent global movements. Through an in-depth analysis of printed and electronic media, the study examines the impacts of these sacrifices on the academic and personal lives of those involved. The paper highlights examples from various universities, demonstrating student activism's long-term and short-term effects, including disciplinary actions, social backlash, and career implications. The researchers also explore the broader implications of student sacrifices. The findings reveal that these sacrifices are driven by a profound commitment to justice and human rights, and are influenced by the increasing availability of information, peer interactions, and personal convictions. The study also discusses the broader implications of this activism, comparing it to historical precedents and assessing its potential to influence policy and public opinion. The emotional and psychological toll on student activists is significant, but their sense of purpose and community support mitigates some of these challenges. However, the researchers call for acknowledging the broader Impact of these sacrifices on the future global movement of FreePalestine.
This document provides an overview of wound healing, its functions, stages, mechanisms, factors affecting it, and complications.
A wound is a break in the integrity of the skin or tissues, which may be associated with disruption of the structure and function.
Healing is the body’s response to injury in an attempt to restore normal structure and functions.
Healing can occur in two ways: Regeneration and Repair
There are 4 phases of wound healing: hemostasis, inflammation, proliferation, and remodeling. This document also describes the mechanism of wound healing. Factors that affect healing include infection, uncontrolled diabetes, poor nutrition, age, anemia, the presence of foreign bodies, etc.
Complications of wound healing like infection, hyperpigmentation of scar, contractures, and keloid formation.
Geography as a Discipline Chapter 1 __ Class 11 Geography NCERT _ Class Notes...
Msds l 540
1. MATERIAL SAFETY DATA SHEET
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Product name: Niax® silicone L-540
1. PRODUCT AND COMPANY IDENTIFICATION
Product name: Niax® silicone L-540
Chemical name: Polyalkyleneoxidemethylsiloxane copolymer
Use(s): Used in polyurethane foam manufacturing.
Supplier: GE Canada
1063 Copperstone Drive
Pickering, Ontario L1W 3V8, Canada
Manufacturer: GE Silicones
3500 South State Route 2
Friendly, WV 26146, USA
Prepared by/For MSDS, Product Product Safety Department
Safety, or regulatory inquiries, call: 304-652-8446 or 304-652-8155
Issue date: 2006.06.23
Emergency telephone number: CANUTEC (24 hours) 613-996-6666
2. COMPOSITION / INFORMATION ON INGREDIENTS
COMPONENT CAS# %W/W
Polyalkylene glycol- WHMIS Non-Haz Trade secret 30.0 - 60.0 %
Polyalkyleneoxidemethylsiloxane copolymer-WHMIS- Trade secret 30.0 - 60.0 %
Non-Haz
Polyalkylene glycol-WHMIS-Non-Haz Trade secret 7.0 - 13.0 %
Octamethylcyclotetrasiloxane 556-67-2 0.1 - 0.5 %
3. HAZARDS IDENTIFICATION
EMERGENCY OVERVIEW
WARNING!
MAY CAUSE EYE IRRITATION.
CONTAINS OCTAMETHYLCYCLOTETRASILOXANE WHICH MAY CAUSE REPRODUCTIVE EFFECTS
BASED ON ANIMAL DATA.
2. MATERIAL SAFETY DATA SHEET
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4. FIRST AID MEASURES
Swallowing
Give water to drink. Obtain medical attention.
Skin
Remove contaminated clothing. Wash skin with soap and water. Obtain medical attention if discomfort persists.
Inhalation
Remove to fresh air. Obtain medical attention.
Notes to physician
There is no specific antidote. Treatment of overexposure should be directed at the control of symptoms and the
clinical condition of the patient.
5. FIRE-FIGHTING MEASURES
Flash point: 103 °C
Flammable limits
Lower limit: Not available
Upper limit: Not available
Hazardous combustion products
Burning can produce the following combustion products:
Oxides of carbon.
Oxides of silicon.
Carbon monoxide is highly toxic if inhaled; carbon dioxide in sufficient concentrations can act as an asphyxiant.
Acute overexposure to the products of combustion may result in irritation of the respiratory tract.
Special fire fighting procedures
Do not direct a solid stream of water or foam into hot, burning pools: this may cause frothing and increase fire
intensity.
Special protective equipment for firefighters
Self-contained breathing apparatus. Body covering protective clothing.
Extinguishing media
Suitable: Large fires:
- alcohol-type foam or universal-type foams
Small fires:
- CO2
- dry chemical
Unsuitable: None.
Unusual fire and explosion hazards
None known.
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6. ACCIDENTAL RELEASE MEASURES
Personal precautions
Avoid contact with eyes and skin. Avoid contact with liquid and vapors. Wear suitable protective equipment.
Environmental precautions
Prevent runoff.
Methods for cleaning up
Cover with absorbent or contain.
Collect for disposal.
Observe government regulations.
7. HANDLING AND STORAGE
HANDLING
Handling precautions
Do not swallow. Do not get in eyes, on skin, on clothing. Avoid breathing vapor, aerosol and mist. Use with
adequate ventilation. Wash thoroughly after handling.
STORAGE
Storage requirements
Keep away from heat and flame. Keep container closed.
8. EXPOSURE CONTROLS / PERSONAL PROTECTION
PERSONAL PROTECTION
Respiratory protection
Self-contained breathing apparatus in high vapor concentrations.
Hand protection / protective gloves
Recommended order of use:
4H
Butyl
Neoprene
Nitrile (NBR)
PVC-coated
Eye protection
Monogoggles
Skin protection
Chemical protective clothing.
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Product name: Niax® silicone L-540
Other protective equipment
Eye bath
Safety shower
ENGINEERING CONTROLS
Ventilation
General mechanical room ventilation is satisfactory for normal handling and storage operations.
Special, local ventilation is needed at points where vapors can be expected to escape to the workplace air.
EXPOSURE LIMITS
Component Type Value Remark
Octamethylcyclotetrasil TWA, Internal Exposure 5.0 ppm
oxane Limit
Consult local authorities for acceptable provincial values.
9. PHYSICAL AND CHEMICAL PROPERTIES
APPEARANCE
Physical state Liquid
Color Clear, pale
Odor Polyether
Odor threshold No data available.
OTHER PROPERTIES
Boiling point > 150 °C at STP unless specified below.
Copolymer
Melting point < 0 °C at STP unless specified below.
pH Not available
Specific gravity (H2O=1) 1.0300 at 25 °C ( 1,013 hPa)
Vapor pressure < 1.33 hPa (1.00 mmHg) at 20 °C
Vapor density (air=1) Heavier than air
Solubility in water Soluble
Evaporation rate (Butyl <1
Acetate=1)
Partitioning coefficient No data available.
Flash point 103 °C
Method: Pensky-Martens closed cup ASTM D 93
Percent volatiles Not determined
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Product name: Niax® silicone L-540
Molecular weight Copolymer
10. STABILITY AND REACTIVITY
Stability: Stable.
Stability - Conditions to avoid
None known.
Incompatible materials
None currently known.
Hazardous polymerization: Will not occur.
Hazardous polymerization - Conditions to avoid
None known.
11. TOXICOLOGICAL INFORMATION
SWALLOWING
Acute effects
May cause the following effects:
- abdominal discomfort
- nausea
- vomiting
May affect the gastrointestinal and respiratory systems, kidneys, liver, heart,|and cause severe CNS depression and
death. Lung damage may result from accidental aspiration.
Long-term oral exposure affected the brain, heart, liver, kidney, and bladder in laboratory animals.
SKIN ABSORPTION
Acute effects
No evidence of harmful effects from available information.
INHALATION
Acute effects
Short-term harmful health effects are not expected from vapor generated at ambient temperature.
An ingredient in the controlled product has a major effect on the CNS, causing initial excitation (tremors, increased
locomotor activity) followed by depression (incoordination, narcosis, anaesthesia). Acute exposure affects behaviour,
performance, sleep cycle, the respiratory and cardiovascular systems and kidneys.
An ingredient in the controlled product is a respiratory irritant, a CNS depressant and anaesthetic, causing headache,
dizziness, acute behavioral effects (hilarity, irritability, confusion), impaired reaction time, poor coordination, visual
disturbances, collapse, death as well as reversible kidney and liver damage.||Lethal cardiac irregularities may occur in
predisposed individuals.
Chronic exposure causes inflammation and degeneration of the respiratory lining, permanent hearing loss, behavioral
changes and decreased learning and toxic changes in the optic nerve in experimental animals.
CNS disturbances (headache, dizziness, abnormal gait, tremors, memory loss, incoordination), reduced dexterity,
reduced ability to concentrate have been reported following long-term occupational exposure to an ingredient in the
controlled product which may have involved simultaneous exposure to other solvents. An extensive review of
available data suggests there may be peripheral nerve effects (paraesthesia, reduced conduction velocity), hearing
6. MATERIAL SAFETY DATA SHEET
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damage and reversible liver and kidney damage, abnormal numbers of blood cells, but that no completely adequate
studies are available.
SKIN CONTACT
Acute effects
In experimental animals, an ingredient in the controlled product causes damage to the upper skin layers within 15
minutes, which may extend into the lower skin layers within an hour.
May cause skin damage due to degreasing action.
Prolonged contact may result in:
- drying of the skin
- defatting of the skin
- development of fissures
- dermatitis
EYE CONTACT
Acute effects
Causes irritation.
Causes the following effects:
- stinging
- discomfort
- pain
May cause the following effects:
- excess redness of the conjunctivae
- swelling of the conjunctivae
Medical conditions aggravated by exposure
A knowledge of the available toxicology information and of the physical and chemical properties of the material
suggests that overexposure is unlikely to aggravate existing medical conditions.
Other effects of exposure
Solvents such as benzene and chlorinated hydrocarbons are toxicologically synergistic products in combination with
an ingredient in the controlled product.
SIGNIFICANT DATA WITH POSSIBLE RELEVANCE TO HUMAN HEALTH
The following information is based on analogy with a similar material:
This material was negative in a Salmonella Typhimurium/ Escherichia coli mutagenicity assay.
Octamethylcyclotetrasiloxane:
Repeated exposure to octamethylcyclotetrasiloxane by inhalation (300 ppm) or by the oral route in rodents produced
increased liver weight, which was generally reversible after exposure ceased. Repeated exposure by inhalation in
pregnant rats (700 ppm) did not produce any developmental effects, but certain reproductive parameters (reduction in
mean live litter size, and implantation sites) were affected.
The relevance of these data to humans is unclear. Further studies are on-going.
Octamethylcyclotetrasiloxane was not clastogenic in an in-vivo bone marrow chromosomal assay in Sprague Dawley
rats following inhalation of vapor.
A 2 yr. combined chronic/carcinogenicity assay was conducted on octamethylcyclotetrasiloxane (D4). Fischer-344
rats were exposed by whole-body vapor inhalation 6 hrs/day, 5 days/week for up to 104 weeks to 0, 10, 30, 150 or
700 ppm of D4. A statistically significant increase in incidence of (uterine) endometrial cell hyperplasia and uterine
adenomas (benign tumors) were observed in female rats at 700 ppm. Since these effects only occurred at 700 ppm, a
level that greatly exceeds typical workplace or consumer exposure, it is unlikely that industrial, commercial or
consumer uses of products containing D4 would result in a significant risk to humans.
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12. ECOLOGICAL INFORMATION
All available ecological data have been taken into account for the development of the hazard and precautionary
information contained in this Material Safety Data Sheet.
13. DISPOSAL CONSIDERATIONS
General: Incinerate in a furnace where permitted under appropriate federal, provincial, and local
regulations.
14. TRANSPORT INFORMATION
TDG - Canada
This product is not regulated by TDG.
IMDG Classification
This product is not regulated by IMDG.
ICAO Classification
This product is not regulated by ICAO.
15. REGULATORY INFORMATION
WHMIS CLASSIFICATION
D2A Very toxic material causing other effects.
CPR Compliance
This product has been classified with the hazard criteria of the CPR, and the MSDS contains all the information
required by CPR.
CHEMICAL INVENTORY
Canada: The ingredients of this product are on the DSL.
Europe: The ingredients of this mixture are on the EINECS inventory.
United States: The ingredients of this product are listed on the TSCA inventory or are exempt.
Australia: This product, or the components, is listed or exempt from listing on the Australian
Inventory of Chemical Substances (AICS).
Japan: This product, or the components, is listed or exempt from listing on the Existing and New
Chemical Substances (ENCS) list.
Korea: This product is listed on the Existing Chemicals List (ECL).
Philippines: This product, or the components, is listed or exempt from listing on the Philippines
Inventory of Chemicals and Chemical Substances (PICCS).
8. MATERIAL SAFETY DATA SHEET
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16. OTHER INFORMATION
RECOMMENDED USES AND RESTRICTIONS
Please consult the product and/or application information bulletins for this product.
LEGEND
STP Standard temperature and pressure
W/W Weight/Weight
The opinions expressed herein are those of qualified experts within GE Silicones. We believe that the information
contained herein is current as of the date of this Safety Data Sheet. Since the use of this information and of these
opinions and the conditions of use of this product are not within the control of GE Silicones, it is the user's obligation
to determine the conditions of safe use of the products.