Lincoln Electric METALUX 248HO User Manual

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Date: Trade Name: Sizes: Supersedes:

1/11/2008 UltraCore 712A80 All 2/11/05

MSDS No.:

CAN-CW715

M A T E R I A L S A F E T Y D A T A S H E E T

Conforms to Workplace Hazardous Materials Information System (WHMIS) Rev. November, 1988

Section I & II - Preparation and Product Information

The Lincoln Electric Company of Canada LP 179 Wicksteed Avenue Toronto, Ontario M4G 2B9 CANADA Phone: (416) 421-2600

I M P O R T A N T !

This section covers the materials from which this product is manufactured. The fumes and gases produced during welding with the normal use of this product are covered by Section VII; see it for industrial hygiene information. CAS Number shown is representative for the ingredients listed. All ingredients listed may not be present in all sizes. (1) The term “hazardous” in “Hazardous Ingredients” should be interpreted as a term required and defined in the Hazardo us Products Act and does

Ingredients: CAS No. Wt. %

Titanium dioxides 13463-67-7 5-10 10 Iron 7439-89-6 1-5 10* Manganese and/or manganese alloys and compounds (as Mn) 7439-96-5 1-5 0.2 Magnesium and/or magnesium alloys and compounds (as Mg) 7439-95-4 0.1-1 10* Silicon and/or silicon alloys and compounds (as Si) 7440-21-3 0.1-1 10* Mineral silicates 1332-58-7 0.1-1 5** Nickel (metal) 7440-02-0 0.1-1 1.5 Fluorides (as F) 7789-75-5 0.1-1 2.5 Boron alloys (as B) 11108-67-1 0.1-1 10*

Carbon steel tube

Notes:

(*) Not listed. Nuisance value maximum is 10 milligrams per cubic

(**

not necessarily imply the existence of any hazard.

meter. TLV value for iron oxide is 5 milligrams per cubic meter.

) As respirable dust.

For Welding Consumables and Related Products

Product Type: Flux Cored Electrode

AWS E71T-1MJH8

Representative Classifications:

E71T-9MJH8 E71T-12MJH8

Prepared by The Lincoln Electric Company, Cleveland, Ohio, USA

(216) 481-8100, on the date shown above.

Section III - Hazardous Ingredients (1)

TLV

(Route/Species)

230 mg/kg LDLo

50 mg/kg LDLo

Not Available Not Available Not Available Not Available

Not Available Not Available

590 g/kg LDLo

Not Available Not Available

7439-89-6

60-100

(LDLo, LCLo) Lowest published toxic concentration.

mg/m

10*

LD50

9 g/kg

4250 mg/kg

2.0 g/kg

LC50 mg/m3

(Route/Species)

2.3 LCLo

inhalation/human

Not Available

Not Available Not Available Not Available Not Available

Physical data such as odor, vapor pressure, density, evaporation rate and freezing or boiling points are not listed as they are not applicable to this product and its use.

Non Flammable; Welding arc and sparks can ignite combustibles and flammable products. See CSA W117.2 Section 9.7 as referenced in Section VIII. Product is inert, no special handling or spill procedures required.

Rev 9/07 (CONTINUED ON SIDE TWO)

Section IV - Physical Data

Section V - Hazard Data

Product:

UltraCore 712A80

Date: 1/11/2008

Acute Lethality Values: LC

in an animal assay, is expected to cause the death of 50% of a defined animal population.

Threshold Limit Value: The ACGIH recommended general limit for Welding Fume NOS - (Not Otherwise Specified) is 5 mg/m The TLV-TWA is the time-weighted average concentration for a normal 8-hour workday and a 40 hour workweek, to which nearly all workers may be repeatedly exposed, day after day, without adverse effect. See Section VII for specific fume constituents which may modify this TLV. Threshold Limit Values are figures published by the American Conference of Government Industrial Hygienists.

Effects of Overexposure: Electric arc welding may create one or more of the following health hazards: Fumes and Gases can be dangerous to your health. Common entry is by inhalation. Other possible routes are skin contact and ingestion.

Short-term (acute) overexposure to welding fumes may result in discomfort such as metal fume fever, dizziness, nausea, or dryness or irritation of

Arc Rays can injure eyes and burn skin. Skin cancer has been reported. Electric Shock can kill. If welding must be performed in damp locations or with wet clothing, on metal structures or when in cramped positions such as sitting, kneeling or lying, or if there is a high risk of unavoidable or accidental contact with workpiece, use the following equipment: Semiautomatic DC Welder, DC Manual (Stick) Welder, or AC Welder with Reduced Voltage Control.

means the single dose of a substance that, when administered by a defined route in an animal assay, is expected to cause the death of 50% of

a defined animal population.

nose, throat, or eyes. May aggravate pre-existing respiratory problems (e.g. asthma, emphysema).

Long-term (chronic) overexposure to welding fumes can lead to siderosis (iron deposits in lung) and may affect pulmonary function. Manganese overexposure can affect the central nervous system, resulting in impaired speech and movement. Bronchitis and some lung fibrosis have been reported. Repeated exposure to fluorides may cause excessive calcification of the bone and calcification of ligaments of the ribs, pelvis and spinal column. May cause skin rash. Nickel and its compounds are on the IARC (International Agency for Research on Cancer) and NTP (National Toxicology Program) lists as posing a cancer risk to humans. Nickel compounds are skin sensitizers with symptoms usually occurring after repeated exposure - ranging from a slight itch to severe dermatitis.

means the concentration of a substance in air that when administered by means of inhalation over a specified length of time

Section VII - Reactivity Data

Section VI - Health Hazard Data and Toxicological Properties

Hazardous Decomposition Products: Welding fumes and gases cannot be classified simply. The composition and quantity of both are dependent upon

the metal being welded, the process, procedure and electrodes used.

Other conditions which also influence the composition and quantity of the fumes and gases to which workers may be exposed include: coatings on the metal being welded (such as paint, plating, or galvanizing), the number of welders and the volume of the worker area, the quality and amount of ventilation, the position of the welder's head with respect to the fume plume, as well as the presence of contaminants in the atmosphere (such as chlorinated hydrocarbon vapors from cleaning and degreasing activities.)

When the electrode is consumed, the fume and gas decomposition products generated are different in percent and form from the ingredients listed in Section III. Decomposition products of normal operation include those originating from the volatilization, reaction, or oxidation of the materials shown in Section III, plus those from the base metal and coating, etc., as noted above.

Reasonably expected fume constituents of this product would include: Primarily iron oxide; secondarily fluorides and complex oxides of

Maximum fume exposure guideline for this product (based on manganese content) is 2.0 milligrams per cubic meter.

Gaseous reaction products may include carbon monoxide and carbon dioxide. Ozone and nitrogen oxides may be formed by the radiation f rom the arc. Determine the composition and quantity of fumes and gases to which workers are exposed by taking an air sample from inside the welder's helmet if worn or

in the worker's breathing zone. Improve ventilation if exposures are not below limits. See ANSI/AWS F1.1, F1.2, F1.3 and F1.5, available from the American Welding Society, 550 N.W. LeJeune Road, Miami, FL 33126.

magnesium, manganese, nickel, potassium, silicon, sodium and titanium.

Section VIII - Preventive Measures and Precautions for Safe Handling and Use

Read and understand the manufacturer's instruction and the precautionary label on the product. Request Lincoln Safety Publication E205. See Canadian Standards Association Standard CSA-W117.2 "Safety in Welding, Cutting, and Allied Processes" published by the Canadian Standards Association, 178 Rexdale Blvd., Rexdale, Ontario M9W1R3 for more details on many of the following: Ventilation: Use enough ventilation, local exhaust at the arc, or both to keep the fumes and gases from the worker's breathing zone and the general area. Train the welder to keep his head out of the fumes. Keep exposure as low as possible. Respiratory Protection: Use respirable fume respirator or air supplied respirator when welding in confined space or general work area when local exhaust or ventilation does not keep exposure below TLV. Eye Protection: Wear helmet or use face shield with filter lens shade number 12 or darker. Shield others by providing screens and flash goggles.

Protective Clothing: Wear hand, head, and body protection which help to prevent injury from radiation, sparks and electrical shock. See W117.2. At a minimum this includes welder's gloves and a protective face shield, and may include arm protectors, aprons, hats, shoulder protection, as well as dark substantial clothing. Train the welder not to permit electrically live parts or electrodes to contact skin . . . or clothing or gloves if they are wet. Insulate from work and ground. Disposal Information: Discard any product, residue, disposable container, or liner as ordinary waste in an environmentally acceptable manner according to Federal, State and Local regulations unless otherwise noted. No applicable ecological information available.

Section IX - Emergency and First Aid Procedures

Call for medical aid. Employ first aid techniques recommended by the Canadian Red Cross. IF BREATHING IS DIFFICULT give oxygen. IF NOT BREATHING employ CPR (Cardiopulmonary Resuscitation) techniques. IN CASE OF ELECTRICAL SHOCK, turn off power and follow recommended treatment. In all cases call a physician.