- Category: Uncategorised
- Published: Wednesday, 10 February 2016 10:04
- Written by Master
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A completely new concept of geo-electrical equipment. The instrument itself let you check your data on site in the field thanks to a large, 8,4 inch, colour screen that is extremely visible in daylight. You can plot your pseudo-sections as you go. Further to that, the instrument handles up to 12 input channels for highest possible flexibility and productivity for both 2, 3 and 4 D measurements. Terrameter LS has two more channels dedicated to QC of the instrument performance. Full waveform records are stored to allow for an unmatched potential of post-processing possibilities.
- Category: Uncategorised
- Published: Sunday, 31 January 2016 15:54
- Written by Master
- Hits: 4842
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- Category: Uncategorised
- Published: Monday, 25 January 2016 12:47
- Written by Master
- Hits: 11295
Customers
- Category: Uncategorised
- Published: Monday, 25 January 2016 12:48
- Written by Master
- Hits: 36756
- Category: Uncategorised
- Published: Monday, 25 January 2016 12:47
- Written by Master
- Hits: 6351
To rent equipment from Jarfkav comppany, we invite you to follow the six steps below:
- Contact us to find out if the equipment required is available
- Reserve the equipment – this does not confirm a rental order but merely books the equipment for availability.
- Let us know if you require a preliminary training course
- Confirm your rental order officially on your company’s headed-paper
- Indicate the delivery and invoicing addresses, together with the chosen transport method
You will receive confirmation of your order either by fax or e-mail.
Geophysical services
Electric Resistivity Imaging services by Terrameter LS
Terrameter LS developed in ABEM Company inSweden. This instrument provides fast, accurate and automated resistivity imaging in 2D and 3D.
Typical areas of application include:
•Groundwater resource management and vulnerability assessment,
•Mapping and monitoring of contaminated ground/groundwater
•Geotechnical pre-investigation
•Geological mapping
•Mapping/prospecting of natural resources
•Geothermal prospecting
•Resistivity investigation and monitoring for detection of internal erosion and anomalous seepage in embankment dams
Seismic Refraction
The seismic refraction method is based on the measurement of the travel time of seismic waves refracted at the interfaces between subsurface layers of different velocity. Seismic energy is provided by a source located on the surface. Energy radiates out from the shot point, either traveling directly through the upper layer or traveling down to and then laterally along higher velocity layers before returning to the surface. This energy is detected on the surface using a linear array of geophones. Observation of the travel-times of the refracted signals provides information for the depth profile and velocity structure of the subsurface at the area surveyed.
The primaryapplications of seismic refraction include:
•Evaluate the depth to bedrock
•Develop a profile of the subsurface materials
•Assess rip ability and rock quality
Equipments:
TerralocMk6 seismograph
Geophones
Seismic Cable
Down-Hole Test
The Downhole Test is a method which determines soil stiffness properties by analyzing direct compressional and shear waves along a borehole down to about 30 m.
The aim of the downhole testing is to derive elastic rock properties such as Poissons ratio or YOUNGs modulus. Shear waves have to be generated at surface. A shear wave source (sledge hammer hit sidewise) is used at surface and a coupled receiver system is moved in the borehole.Traveltimes of the seismic waves are analysed and seismic velocity is calculated. Shear wave velocity can be transformed to soil stiffness
The measurements can be performed below and above the groundwater table. A grouted casing (e.g. PVC) with a diameter between 3 and 6 inch needs to be prepared.
Equipments :
Terraloc Mk6 seismograph
3C Borehole Geophone
Ground Penetration Radar services
The method is based on the emission of electromagnetic waves at the surface. These waves penetrate into the ground and are reflected at layer interfaces and objects. The amplitudes and travel times of the reflected waves are recorded by a surface receiver finally. Radar measurements are performed along profile lines and the results are vertical cross sections at these lines. Layer boundaries and single objects can be identified.
Equipments:
250MHz Shielded antenna
500 Mhz Easy Locator antenna
XV11 monitor
RTC cart
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