In-Pakt Precision CT

In-Pakt Precision CT
In-Pakt Precision CT

In-Pakt Precision CT is a pre-packaged, high performance, pumpable, non-shrink, cementitious grout for cold temperature applications. It is a cement-based, non-metallic, non-shrink grout containing well-graded, natural, fine aggregate and other carefully selected components. In-Pakt Precision CT meets ASTM C 1107, Type C grout and can be used at varying consistencies from dry pack to fluid in temperatures above -5 °C (23 °F).

• Can be mixed and placed from dry pack, plastic and fluid consistencies using relatively low water:cement ratios
• Excellent pumpability
• Improved resistance to wash-out
• Achieves hardened properties in cold temperature conditions
• Very low permeability
• Non-corrosive, non-chloride, non-metallic


1. FEATURES & BENEFITS

• Can be mixed and placed from dry pack, plastic and fluid consistencies using relatively low water:cement ratios
• Excellent pumpability
• Improved resistance to wash-out
• Achieves hardened properties in cold temperature conditions
• Very low permeability
• Non-corrosive, non-chloride, non-metallic
• Excellent resistance to freeze-thaw cycling and salt-scaling in the presence of de-icing salts
• All KING products are manufactured using ISO 9001:2015 Certified Processes

2. USES

• Grouting machinery base plates and column sole plates
• Grouting anchor bolts, dowels and hand rails
• Repair of pre-cast units
• Infill of pipes and sleeves in marine environments

3. PROCEDURES

Surface Preparation: All surfaces to be in contact with In-Pakt Precision CT must be free from dust, oil, grease or any other foreign substances that may interfere with the bond of the material. Remove all delaminated or unsound concrete providing a roughened surface. To avoid freezing of the interface between the grout and the parent concrete, do not pre-wet the receiving surface. Pneumatically remove any free standing or other fine particles that may interfere with the bond between the grout and the substrate.

When temperatures are below -5 °C (23 °F), the temperature of the substrate, plates and grout must be warmed at 5 °C (40 °F) for 24 hours prior to placement. The temperature of the grouted area must be maintained above 0 °C (32 °F) for 24 hours after application.

Water Proportioning for Grout Consistency: The following amounts of water will produce the following grout consistencies:

Dry Pack – Approx. 2.5 L (0.66 US gallon) of water
Plastic – Approx. 3.0 L (0.79 US gallon) of water
Fluid – Approx. 4.0 L (1.0 US gallon) of water

Note: Water requirement varies with temperature. Increase water slightly as temperature rises and decrease water slightly as temperature decreases.

Mixing: Place 75% of required water into mixer and slowly introduce entire bag of In-Pakt Precision CT. Add balance of required water slowly while mixer is running, not exceeding maximum recommended volume of water. Continue mixing for a minimum of 3 minutes and stop only when material has obtained a consistent homogeneous mix.

Placing:
Dry Pack – Firmly press or ram In-Pakt Precision CT into place using metal or hardwood tamping tools and a mason’s trowel. Grout consistency when pressed into a firm ball should display no cracking or excessive surface moisture.
Plastic – Rod into place or trowel into areas where material can not flow into place. Grout consistency should be similar to that of a masonry mortar (between 100% and 115% flow, ASTM C 1437).
Fluid – In-Pakt Precision CT may be poured or pumped into place. Pour continuously with adequate head pressure or pump into place ensuring that all voids are completely filled. Formwork joints should be caulked with suitable material. Adequately vent high points to allow entrapped air to escape.

4. CURING

A resin based liquid membrane curing compound approved for use in cold weather conditions that complies with ASTM C 309 should be applied immediately after grout reaches final set.

5. TECHNICAL DATA

The following data is representative of typical values achievable under laboratory conditions. Results in the field may vary.

DRY PACK PLASTIC FLUID
WET DENSITY 2,127 kg/m3 2,170 kg/m3
ASTM C 138 (132 lb/ft3) (135 lb/ft3)

 

DRY PACK PLASTIC FLUID
FLOW
ASTM C 138 110%* > 150%

 

DRY PACK PLASTIC FLUID
VOLUME OF WATER PER 25 KG (55 LB) 2.5 L 3.0 L 4.0 L
 (0.66 US gallon) (0.79 US gallon) (1.0 US gallon)

 

DRY PACK PLASTIC FLUID
WORKING TIME
30 minutes 60 minutes 60 minutes

 

PLASTIC FLUID
SET TIME Initial  3.0 hours 5.5 hours
ASTM C 191
(METHOD A)
Final  3.5 hours 7.0 hours

 

DRY PACK PLASTIC FLUID
COMPRESSIVE STRENGTH
ASTM C 109
1 Day 25 MPa (3625 psi) 15 MPa (2175 psi)
3 Day  40 MPa (5800 psi) 30 MPa (4350 psi) 21 MPa (3000 psi)
7 Day  45 MPa (6500 psi) 45 MPa (6500 psi) 35 MPa (5075 psi)
28 Day  55 MPa (8000 psi) 55 MPa (8000 psi) 40 MPa (5800 psi)

 

DRY PACK PLASTIC FLUID
COMPRESSIVE STRENGTH
ASTM C 109 [at 5 °C (40 °F)]*
1 Day 5 MPa (725 psi)
3 Day 25 MPa (3625 psi)
7 Day 30 MPa (4350 psi)
28 Day 40 MPa (5800 psi)

 

DRY PACK PLASTIC FLUID
SPLITTING TENSILE STRENGTH
ASTM C 496
28 Day 4.0 MPa (580 psi) 3.5 MPa (505 psi)

 

DRY PACK PLASTIC FLUID
BOND STRENGTH BY SLANT SHEAR
ASTM C 882
28 Day 14.0 MPa (2030 psi) 12.0 MPa (1750 psi)

 

DRY PACK PLASTIC FLUID
MODULUS OF ELASTICITY
ASTM C 469 26.0 GPa 19.5 GPa
28 Day (3.8 x 106 psi) (2.8 x 106 psi)

 

DRY PACK PLASTIC FLUID
HARDENED HEIGHT CHANGE
ASTM C 1090
28 Day 0.10% 0.02%

 

DRY PACK PLASTIC FLUID
ABSORPTION
ASTM C 642
28 Day 8.2% 13.0%

 

DRY PACK PLASTIC FLUID
FREEZE-THAW RESISTANCE
ASTM C 666
28 Day 100%
(Excellent durability factor)
107%
(Excellent durability factor)

 

DRY PACK PLASTIC FLUID
SALT-SCALING RESISTANCE
ASTM C 672
25 Cycles 0.02 kg/m2 (0.004 lb/ft2) 0.04 kg/m2 (0.008 lb/ft2)
50 Cycles  0.22 kg/m2 (0.05 lb/ft2) 0.20 kg/m2 (0.04 lb/ft2)

 

*Laboratory conditions with material and ambient temperatures kept at 5 °C (40 °F).

6. OPTIMUM PERFORMANCE

• Not recommended for areas of extremely high vibration
• For void filling applications larger than 50 mm (2 inches), use MS-S10 SCC or RS-S10 SCC
• Contact your local KING Technical Representative for recommendations or information on uses or conditions not listed

7. YIELD

25 KG (55 lb)

PLASTIC FLUID
0.013 m3 0.014 m3
(0.46 ft3) (0.49 ft3)

8. PACKAGING

In-Pakt Precision CT is normally packaged in 25 KG (55 lb) triple-lined bags and polywrapped on wooden pallets. All KING products can be custom packaged to suit specific job requirements.

9. STORAGE AND SHELF LIFE

Material should be stored in a dry, covered area, protected from the elements. Unopened bags have a shelf life of 12 months.

10. SAFETY PROCEDURES

In-Pakt Precision CT contains Portland cement. Normal safety-wear such as rubber gloves, dust mask and safety glasses used to handle conventional cement based products should be worn. Safety Data Sheets are available upon request.

Warranty

This product is designed to meet the performance specifications outlined in this product data sheet. If the product is used in conditions for which it was not intended, or applied in a manner contrary to the written recommendations contained in the product data sheet, the product may not reach such performance specifications. The foregoing is in lieu of any other warranties, representations or conditions, expressed or implied, including, but not limited to, implied warranties or conditions of merchantable quality or fitness for particular purposes, and those arising by statute or otherwise in law or from a course of dealing or usage of trade.

In-Pakt Precision CT
In-Pakt Precision CT

In-Pakt Precision CT is a pre-packaged, high performance, pumpable, non-shrink, cementitious grout for cold temperature applications. It is a cement-based, non-metallic, non-shrink grout containing well-graded, natural, fine aggregate and other carefully selected components. In-Pakt Precision CT meets ASTM C 1107, Type C grout and can be used at varying consistencies from dry pack to fluid in temperatures above -5 °C (23 °F).

• Can be mixed and placed from dry pack, plastic and fluid consistencies using relatively low water:cement ratios
• Excellent pumpability
• Improved resistance to wash-out
• Achieves hardened properties in cold temperature conditions
• Very low permeability
• Non-corrosive, non-chloride, non-metallic


SECTION 1: PRODUCT AND COMPANY IDENTIFICATION

Product Name

In-Pakt Precision CT

Product Identifier

In-Pakt Precision CT Grout

MSDS No.

0175

Product Family

KING Construction Products – Grout

Manufacturer/Supplier King Packaged Materials Company, 3385 Harvester Road, Burlington,Ontario, L7R 3Y5
Emergency Contact Information

King Packaged Materials Company, (800) 461-0566, 8:30am-4:30pm

Use

Grouting machinery base plates and column sole plates. Grouting anchor bolts, dowels and hand rails. Repair of precast units. Infill of pipes and sleeves.

SECTION 2: HAZARDS IDENTIFICATION

Potential Health Effects

Route of Exposure

Inhalation; ingestion; skin contact; eye contact.

Inhalation

Exposure to airborne concentrations above exposure limits may cause irritation of the nose, throat and lungs. Dust may cause irritation to the respiratory tract.

Skin Contact

May cause dry skin, discomfort and irritation. Repeated or prolonged exposure can irritate or burn the skin.

Eye Contact

Airborne dust may cause immediate or delayed irritation or inflammation. Contact causes severe burns with redness, swelling, pain and blurred vision. Permanent damage including blindness can result.

Effects of Long-Term (Chronic) Exposure

Risk of injury depends on duration and level of exposure. This product contains crystalline silica. Prolonged or repeated inhalation of the respirable crystalline silica can cause silicosis, a

seriously disabling and potentially fatal lung disease. See Section 4 for further information.

Carcinogenicity

CARCINOGEN. Known to cause: lung cancer.

Medical Conditions Aggravated by Exposure

This product contains crystalline silica. Prolonged or repeated inhalation of the respirable crystalline silica can cause silicosis, a seriously disabling and potentially fatal lung disease. See Section 4 for further information.

SECTION 3: COMPOSITION/INFORMATION ON INGREDIENTS

Chemical Name CAS Registry No. Concentration % Other Identifiers
Silica, total quartz 14808-60-7 60-100%
Portland Cement 65997-15-1 10-30%
Fly Ash 68131-74-8 5-10%

Notes Other additives not controlled through WHMIS or other legislation.

SECTION 4: FIRST AID MEASURES

Inhalation

Move victim to fresh air. Seek medical attention for discomfort or if coughing or other symptoms do not subside.

Skin Contact Quickly take off contaminated clothing, shoes and leather goods (e.g. watchbands, belts). Wash gently and thoroughly with lukewarm, gently flowing water and non-abrasive soap for 5 minutes.
Eye Contact Immediately flush the contaminated eye(s) with lukewarm, gently flowing water for 15-20 minutes, while holding the eyelid(s) open.
Ingestion

NEVER give anything by mouth if victim is rapidly losing consciousness, or is unconscious or convulsing. DO NOT INDUCE VOMITING. If conscious, give victim a glass of water or milk. Immediately call a Poison Centre or doctor.

Note to Physicians Additional Notes – Silicosis – There are three (3) types of silicosis:

1) Simple chronic silicosis – which results from long-term exposure (more than 20 years) to low amounts of respirable crystalline silica. Nodules of chronic inflammation and scarring provoked by the respirable crystalline silica form in the lungs and chest lymph nodes. This disease may feature breathlessness and may resemble chronic obstructive pulmonary disease (COPD).

2) Accelerated silicosis – occurs after exposure to larger amounts of respirable crystalline silica over a shorter period of time (5-15 years). Inflammation, scarring, and symptoms progress faster in accelerated silicosis than in simple silicosis.

3) Acute silicosis – results from short-term exposure to very large amounts of respirable crystalline silica. The lungs become very inflamed and may fill with fluid, causing severe shortness of breath and low blood oxygen levels.

Progressive massive fibrosis may occur in simple or accelerated silicosis, but is more common in the accelerated form. Progressive massive fibrosis results from severe scarring and leads to the destruction of normal lung structures.

SECTION 5: FIRE FIGHTING MEASURES

Flammable Properties Does not burn.
Suitable Extinguishing Media Not combustible. Use extinguishing agent suitable for surrounding fire.
Specific Hazards Arising from the Chemical None known.
Protective Equipment and Precautions for Firefighters Quartz is a carcinogen and chronic inhalation hazard. Firefighters may enter the area if positive pressure self-contained breathing apparatus (NIOSH approved or equivalent) and full Bunker Gear is worn. Wash down contaminated Bunker gear with water to remove any quartz fibres.

SECTION 6: ACCIDENTAL RELEASE MEASURES

Personal Precautions Use the Personal Protective Equipment recommended in Section 8 of this MSDS. Restrict access to area until completion of clean up. Ensure clean-up is conducted by trained personnel wearing appropriate respiratory protection and chemical protective clothing.
Environmental Precautions Do not allow into any sewer, on the ground or into any waterway.
Methods for Containment and Clean-up Avoid dry sweeping. If necessary, use a dust suppressant such as water. Do not use compressed air for clean-up. Allow material to dry or solidify before disposal. Collect using shovel/scoop or approved HEPA vacuum and place in a suitable container for disposal. Dike and recover contaminated water for appropriate disposal. Flush area with water.

SECTION 7: HANDLING AND STORAGE

Handling Only use where there is adequate ventilation. Avoid generating dusts. Good housekeeping is extremely important. Prevent dust accumulation on ALL surfaces including ceiling rafters and other hidden surfaces. Bagged product is heavy and poses risks such as sprains and strains to the back, the arms, the shoulders and the legs during lifting and mixing.
Storage Store in an area that is: dry. Store in the original, labelled, shipping container. Prevent dust build-up on ALL surfaces. Clean frequently. Avoid dry-sweeping. Use vacuum cleaner equipped with high efficiency filter. Keep away from food and drinking water.

SECTION 8: EXPOSURE CONTROLS/PERSONAL PROTECTION

ACGIH TLV®

OSHA PEL

AIHA WEEL

Chemical Name

TWA

STEL

TWA

Ceiling

8-hr TWA

TWA

Silica, total quartz

0.05 mg/m3

(R) A2

0.1 mg/m3

Portland Cement

1 mg/m3

(R) A4

5 mg/m3

(R)

Exposure Guidelines Emissions from ventilation or work process equipment should be checked to ensure their compliance with environmental protection legislation requirements. In some cases, it may be necessary to modify process equipment to reduce emissions to acceptable levels.ACGIH® = American Conference of Governmental Industrial Hygienists. TLV® = Threshold Limit Value. TWA = Time-Weighted Average. A2 = Suspected human carcinogen. A4 = Not classifiable as a human carcinogen. OSHA = US Occupational Safety and Health Administration. R = Respirable fraction.
Engineering Controls If user operations generate dust, fume, or mist, use ventilation to keep exposure to airborne contaminants below the exposure limit.
Personal Protective Equipment (PPE)
Eye/Face Protection Do not get in eyes. Wear chemical safety goggles and face shield when contact is possible.
Skin Protection Personal protective equipment for the body should be selected based on the task being performed. This includes gloves, coveralls and footwear. Approved gloves should be worn based on risk assessments.
Respiratory Protection Use of an approved respirator, based on a risk assessment is necessary. Respiratory protection should be selected based on the known or anticipated levels of exposure, and the work being performed.

SECTION 9: PHYSICAL AND CHEMICAL PROPERTIES

Physical State Solid
Appearance

Grey –white powder

Odour

Odourless

Boiling Point

Not available

Freezing Point

Not available

Relative Density (water = 1)

2.65

pH

Reacts with water to form an alkaline solution.

Partition Coefficient, n-Octanol/Water

Not available.

Vapour Pressure

Not applicable

Vapour Density (air = 1)

Not applicable

Evaporation Rate

Not applicable

Flash Point

Not applicable

Lower Flammable/Explosive Limit

Not applicable

Upper Flammable/Explosive Limit

Not applicable

Auto-ignition Temperature

Not applicable

Particle Size

Not available

SECTION 10: STABILITY AND REACTIVITY

Chemical Stability Normally stable.
Conditions to Avoid Accidental contact with water. Generation of dust.
Incompatible Materials None known.
Materials Hazardous Decomposition Products None known.
Possibility of Hazardous Reactions None known.

SECTION 11: TOXICOLOGICAL INFORMATION

LC50/LD50 Values

Chemical Name LC50 LD50 (oral) LD50 (dermal)
Silica, total quartz 500 mg/kg (rat)

LC50: No information was located.

LD50 (dermal): No information was located.

Skin Irritation / Corrosion

No information was located.

Eye Irritation / Corrosion

No information was located.

Effects of Short-Term (Acute) Exposure

Inhalation

At low concentrations: May cause lung inflammation At high concentrations: May cause nose and throat irritation. Lung inflammation.

Effects of Long-Term (Chronic) Exposure

Lung damage, such as inflammation, silicosis (scarring of the lungs) and alveolar proteinosis (a condition where a type of protein builds up in the alveoli) have been observed in several different animal species following exposures to quartz ranging from one week to 27 months.

Respiratory and/or Skin Sensitization

Not a respiratory sensitizer. Not a skin sensitizer. Reactions have been observed after crystalline silica has accidentally gotten lodged under the skin, as the result of a physical injury. Often this effect is delayed for weeks to years.

Carcinogenicity

Chemical Name IARC ACGIH® NTP OSHA
Silica, total quartz Group 1 A1 Known carcinogen

Key to Abbreviations

ACGIH® = American Conference of Governmental Industrial Hygienists. A2 = Suspected human carcinogen. IARC = International Agency for Research on Cancer. Group 1 = Carcinogenic to humans. NTP = National Toxicology Program. Known carcinogen = Known human carcinogen.

Teratogenicity / Embryotoxicity

No information was located.

Reproductive Toxicity

No information was located.

Mutagenicity

No information was located.

Toxicologically Synergistic Materials

No information was located.

SECTION 12: ECOLOGICAL INFORMATION

General Comments This section is not required by WHMIS.

SECTION 13: DISPOSAL CONSIDERATIONS

The generation of waste should be avoided or minimized wherever possible. Dispose of surplus and non-recyclable products via a licensed waste disposal contractor. Disposal of this product, solutions and any by-products should at all times comply with the requirements of environmental protection and waste disposal legislation and any regional local authority requirements. Avoid dispersal of spilled material and runoff and contact with soil, waterways, drains and sewers. Store product for disposal as described under Storage in Section 7 of this MSDS.

SECTION 14: TRANSPORT INFORMATION

Shipping Information

Not regulated under Canadian TDG Regulations. Not regulated under US DOT Regulations.

Other Transport Information

Special Shipping Information Not applicable

 

SECTION 15: REGULATORY INFORMATION

Canada

WHMIS Classification

Class D2A Class E

D2A – Very Toxic; E – Corrosive

This product has been classified in accordance with the hazard criteria of the Controlled Products Regulations and the MSDS contains all of the information required by the Controlled Products Regulations.

USA

US OSHA Regulatory Status

This material is considered hazardous by the OSHA Hazard Communication Standard (29 CFR 1910.1200).

SECTION 16: OTHER INFORMATION

SDS Prepared By King Packaged Materials Company
Phone No. 905-639-2993
Date of Preparation March 14, 2016

Disclaimer

To the best of our knowledge, the information contained herein is accurate. However, neither KPM Industries Ltd., nor any of its subsidiaries, assumes any liability whatsoever for the accuracy or completeness of the information contained herein. Final determination of suitability of any material is the sole responsibility of the user. All materials may present unknown hazards and should be used with caution. Although certain hazards are described herein, we cannot guarantee that these are the only hazards that exist.