Marshalltown SG87SH SURFACE SHARK Floor Grinder User Manual

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SG87Sh SuRFACE ShARK FLooR GRINDER

STOPPING THE SURFACE GRINDER

Application: SG87SH SURFACE SHARK

The SG87Sh Floor Grinder is stopped by rotating or

releasing the starter control grip with the right hand to

the oFF position. When not in use, turn the oN/oFF

master switch to the oFF position.

OPERATIONAL PARAMETERS AND TECHNIQUES

FOR THE FLOOR GRINDER

Application: SG87SH SURFACE SHARK

Early Age Grinding

Early age grinding is an alternative to floating and

troweling. It gets it name from the fact that the concrete

is ground at an early age, after it has set but before

it has gained much structural strength. The process

usually involves the following steps:

1) Normal screeding of the floor.

2) Smoothing the floor surface with a skip float.

3) Cover the floor with polyethane sheeting.

4) Removing the sheeting and grinding the floor down

a uniform depth of approximately 1/32 inch within 24 to

48 hours of the initial pouring. The C10 silicon carbide

grinding stones are usually used for the process,

although the multi segmented, dry diamond blades

can be use as an alternative with substantially greater

productivity rates. The main benefit of early age

grinding is that it eliminates late work in cold weather.

With ordinary finishing methods, a slab cast in the

morning of a cold weather day might not get finished

troweled until very late at night. With grinding, the

construction crew is able to leave the job at the end

of a normal work day and return 1 or 2 days later to

finish the job. Early age grinding may not reduce the

total number of work hours, but it usually eliminates the

need for work at overtime rates, which can substantially

increase total project costs.

one side benefit of early age grinding is that the

process demands less skill than conventional floating

and troweling. This makes it an attractive process

where skilled crew personnel may not be available.

It is also an excellent procedure for concrete floors

that will be eventually covered by carpet or an applied

coating.

Definitions of Floor Flatness and Levelness.

The terms flatness and levelness have poorly

understood meanings in everyday speech, but have

important distinctions in floor construction.

Flatness is defined as planarity or lack of curvature. A

more simple definition is that a flat floor is smooth and

free of bumps and dips. An unflat floor is bumpy and

wavy. Levelness is defined as horizontality or lack of

slope. A level floor is horizontal. A floor that is unlevel

is sloped or tilted.

A floor can be flat, but still not level. Some floors

are specifically designed to be unlevel; they can be

intentionally sloped for drainage considerations. very

few, if any, floors are specifically designed to be

unflat. unfortunately, many turn out that way. Flatness

and levelness are both desirable, but have different

implications for the floor user. Flatness is critical where

the user’s main concern is the behavior of wheeled

type vehicles. Levelness is critical where the user’s

main concern is with fixed structures such as shelving,

racks and the placement of machine tools.

Exceptions exist, but for most users, flatness is more

important than levelness. The reasoning is that fixed

equipment can be shimmed or adjusted to compensate.

however, it is not as easy to adapt a wheeled vehicle

to a floor that is not flat enough to allow for proper

action.

Flatness and levelness also have different implications

for the floor contractor. Flatness is determined mainly

by finishing methods. Levelness is determined mainly

by the side forms.

Defined Versus Random Traffic Patterns.

Floors are subject to two kinds of traffic patterns:

defined and random. on a defined traffic floor, vehicle

movement is confined to fixed paths. on a random

traffic floor, vehicles are free to roam, though inevitably,

some traffic patterns are used more than others.

The distinction is important because the two kinds of

traffic demand different methods of measuring surface

regularity. on a defined traffic floor, a continuous (or

nearly continuous) profile in each of the paths can be

measured. but where traffic is random, the possible

travel paths are infinite in number. What usually results

is statistical sampling; selected points or lines are

checked and assumed that they represent the whole

floor surface.