Model
Engine
Engine Power (Hp / kW)
Engine RPM
Weight (lbs)
Static Pressure (PSI)
Centrifugal Force (lbf)
Frequency (Hz)
Max Gradient (°)
Maximum Travel Speed (ft/min)
*3-Axis Vibration (m/sec
Noise Level (dB(A))
* Minimum level to EN500 Part 4
Soil, which has been disturbed or new in ll, subbase and blacktop, will have small voids or air pockets which, if not compacted, will
lead to one or more problems occurring.
1. As traf c crosses the surface of an uncompacted area, the material is compressed. This leads to subsidence of the top surface
as the material lls the voids.
2. A similar situation occurs with static loads on uncompacted ground. The load (e.g. a building) will sink.
3. Materials with voids are more susceptible to water seepage, leading to erosion. Water ingress may also cause the soil to
expand during freezing temperatures and contract during dry spells. Expansion and contraction is a major cause of damage to
building foundations and normally leads to the structure requiring underpinning.
Compaction increases the density of the material and therefore increases its load bearing capacity. Reduces air voids and therefore
reduces the risk of subsidence, expansion and contraction, due to ingress of water.
Technical Data
27.5In
47.4In
Honda
GX200
5.5/4.0 4.2/3.1
3000
388
1.92
7868
81
20
88.6
2
)
3.1
108
Reasons For Compaction
15.5In
/
20In
/
23.5In
RPX 35/40
Hatz
Hatz
1B20
Honda
1B20
Electric
GX200
Start
4.2/3.1
5.5/4.0 4.2/3.1
3000
3000
3000
412
416
397
2.04
2.06
1.57
7868
7868
7868
81
81
81
20
20
20
88.6
88.6
85.3
2.4
2.4
3.1
108
108
108
23
12.8In
31.9In
RPX 35/50
Hatz
Hatz
1B20
Honda
1B20
Electric
GX200
Start
4.2/3.1
5.5/4.0 4.2/3.1
3000
3000
3000
421
428
408
1.66
1.69
1.34
7868
7868
7868
81
81
81
20
20
20
85.3
85.3
82
2.4
2.4
3.1
108
108
108
RPX 35/60
Hatz
Hatz
1B20
1B20
Electric
Start
4.2/3.1
3000
3000
432
456
1.42
1.50
7868
7868
81
81
20
20
82
82
2.4
2.4
108
108