Offshore/Onshore Laboratory Test – SUNRISE MARINE GEOSIENCES LTD

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Offshore laboratory testing: A dedicated air conditioned container is provided near the drilling rig for the purpose of carrying out required tests on the soil samples. The container is located beside the drilling rig area so that samples recovered from the borehole would be carried immediately to the laboratory with minimum simple disturbance.

Following laboratory tests can be carried out in the onboard laboratory on the selected soil samples:

Visual description Submerged unit weight
Grain size distribution (Sieve and Hydrometer)
Moisture content
Wet and dry density
Specific gravity
Atterberg limits
Pocket Penetrometer (field undrained shear strength)
Torvane (field undrained shear strength)
Unconsolidated undrained triaxial (undrained shear strength)
PH meter
Reaction to HCL

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Onshore laboratory testing: The onshore laboratory testing schedule will be decided by AKAM’s geotechnical engineer depending on the requirements for the engineering analysis.

Different laboratory tests, as applicable, will be performed in the onshore laboratory; on the selected soil samples as follows:

Sieve analysis
Hydrometer analysis
Atterberg limits
Chemical analysis
Oedometer consolidation test
Direct shear strength
Triaxial shear test CU and CD test
Point load index and UCC on core samples

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TV Tore Vane PP (Pocket Penetrometer)

Description: The Motorized Liquid Limit Apparatus (Casagrande) is used to determine the moisture content at which clay soils transition from a plastic to a liquid state. It automates the process to ensure uniformity and precision, making it ideal for soil classification and geotechnical investigations.

Key Features: Motorized operation at 120 drops per minute, adjustable crank and cam mechanism, removable brass cup, blow counter, compliance with ASTM D4318, AASHTO T89, and BS 1377 standards.

Physical Specifications: Dimensions: 200x280x180 mm, Weight: 5 kg, Power supply: 220-240V, 50-60 Hz.

TV Tore Vane PP (Pocket Penetrometer)

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Key Features: Motorized operation at 120 drops per minute, adjustable crank and cam mechanism, removable brass cup, blow counter, compliance with ASTM D4318, AASHTO T89, and BS 1377 standards.

Physical Specifications: Dimensions: 200x280x180 mm, Weight: 5 kg, Power supply: 220-240V, 50-60 Hz.

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Direct Shear Test Device

Description: A Direct Shear Test Device is used to determine the shear strength properties of soil samples by performing the consolidation and shearing phase of a standard direct shear and residual shear test under automatic speed control. It is widely used in geotechnical engineering to measure soil bearing capacity, slope stability, and lateral earth pressures.

Key Features: Automatic speed control, micro stepper motor for horizontal shear load, shear box configurations (square or circular), digital control system, and compatibility with various soil sample sizes.

Physical Specifications: Dimensions: 1300 mm x 400 mm x 1250 mm; Weight: 80 kg; Power Supply: 220V±10%, 50Hz; Shear rate: 0.00001 to 9.99999 mm/min; Max. Shear Travel: 25 mm.

Direct Shear Test Device

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Physical Specifications: Dimensions: 1300 mm x 400 mm x 1250 mm; Weight: 80 kg; Power Supply: 220V±10%, 50Hz; Shear rate: 0.00001 to 9.99999 mm/min; Max. Shear Travel: 25 mm.

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Calcimeter Test Device

Description: The Calcimeter Test Device is used for the rapid and accurate determination of calcium carbonate (CaCO3) content in various samples. It is widely applied in geomorphology, soil science, chemistry, and other scientific laboratories to ensure reliable and efficient results.

Key Features: High accuracy for calcium carbonate measurement, intuitive and easy operation, fast results to increase productivity, durable construction for long-term use.

Physical Specifications: Dimensions: 33 × 20 × 6 cm; Weight: 1.1 kg.

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Calcimeter Test Device

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Key Features: High accuracy for calcium carbonate measurement, intuitive and easy operation, fast results to increase productivity, durable construction for long-term use.

Physical Specifications: Dimensions: 33 × 20 × 6 cm; Weight: 1.1 kg.

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Motorized Liquid Limit Apparatus (Casagrande)

Key Features: Motorized operation at 120 drops per minute, adjustable crank and cam mechanism, removable brass cup, blow counter, compliance with ASTM D4318, AASHTO T89, and BS 1377 standards.

Physical Specifications: Dimensions: 200x280x180 mm, Weight: 5 kg, Power supply: 220-240V, 50-60 Hz.

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Motorized Liquid Limit Apparatus (Casagrande)

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Key Features: Motorized operation at 120 drops per minute, adjustable crank and cam mechanism, removable brass cup, blow counter, compliance with ASTM D4318, AASHTO T89, and BS 1377 standards.

Physical Specifications: Dimensions: 200x280x180 mm, Weight: 5 kg, Power supply: 220-240V, 50-60 Hz.

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Accurate 0.01 gr Precision Balance

Description: A high-precision balance for laboratory use, capable of measuring small weights accurately.

Key Features: Readability of 0.01 g.
Easy calibration feature and RS232 port for data output.

Physical Specifications: Large backlit LCD screen for easy reading.

Accurate 0.01 gr Precision Balance

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Description: A high-precision balance for laboratory use, capable of measuring small weights accurately.

Key Features: Readability of 0.01 g.
Easy calibration feature and RS232 port for data output.

Physical Specifications: Large backlit LCD screen for easy reading.

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PH Meter Test Device

Description: The PH Meter Test Device, is a desktop pH and ORP meter designed for precise measurement in laboratory settings. It features an internal memory capable of storing up to 100 data points, and it includes an RS232 port for direct data transfer to computers. The device is equipped with a HOLD button, allowing users to manually record readings without errors.

Key Features: Measurement Range: pH 0.00 to 14.00 with an accuracy of 0.01 pH
ORP Measurement: ±2000 mV
Automatic Temperature Compensation: Ensures accurate readings across varying temperatures
Automatic Calibration: Supports calibration at up to five points
Internal Memory: Stores up to 100 data points for easy retrieval
Direct Data Transfer: Users can transfer stored data directly to a computer
Warranty and Service: Comes with a one-year warranty and ten years of after-sales service

Physical Specifications: Display Dimensions: 105 mm (L) x 40 mm (W)
Measurement Range for Temperature: 0°C to 80°C with an accuracy of ±0.5°C and precision of 0.1°C
Operating Humidity: Less than 90% humidity recommended
Storage Temperature: -20°C to 60°C
Compatible Probes: pH probes (models 86P3, 86P2, 86P4, 86P6, 86P7, 86P1) and ORP probe (model 850P, 86P5)
Device Dimensions: 260 mm (L) x 168 mm (W) x 58 mm (H)
Weight: 150 g
Power Supply: Operates on a 9V adapter

PH Meter Test Device

[/vc_column_text][/vc_column][/vc_row][vc_row width=”full” columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” height=”auto” hide_on_states=”default,laptops”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” size=”full” image=”9993″][/vc_column][/vc_row][vc_row columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22justify%22%7D%7D”]

[/vc_column_text][/vc_column][/vc_row][vc_row width=”custom” width_custom=”1960px” height=”auto” columns=”2″ laptops_columns=”2″ tablets_columns=”2″ mobiles_columns=”2″ columns_gap=”0.4rem” content_placement=”middle” css=”%7B%22default%22%3A%7B%22height%22%3A%22350px%22%7D%7D” hide_on_states=”tablets,mobiles”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22380px%22%2C%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2240px%22%2C%22height%22%3A%22245px%22%2C%22position%22%3A%22relative%22%2C%22right%22%3A%2220px%22%7D%7D” size=”full” image=”15946″][/vc_column][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22764px%22%2C%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23ffffff%22%2C%22font-size%22%3A%2225px%22%2C%22line-height%22%3A%2250px%22%2C%22background-color%22%3A%22linear-gradient%2890deg%2C%2306067d%2C%23ffffff%29%22%2C%22height%22%3A%2250px%22%7D%7D”]

Dryer Oven

Description: An oven used for drying samples or equipment in laboratory settings.

Key Features: Adjustable temperature settings for precise drying conditions.
Uniform heat distribution to ensure even drying.

Dryer Oven

[/vc_column_text][/vc_column][/vc_row][vc_row width=”full” columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” size=”full” image=”15946″][/vc_column][/vc_row][vc_row height=”auto” columns=”2″ laptops_columns=”2″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops” tablets_columns=”1″][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22justify%22%7D%7D”]

Description: An oven used for drying samples or equipment in laboratory settings.

Key Features: Adjustable temperature settings for precise drying conditions.
Uniform heat distribution to ensure even drying.

[/vc_column_text][/vc_column][/vc_row][vc_row width=”custom” width_custom=”1960px” height=”auto” columns=”2″ laptops_columns=”2″ tablets_columns=”2″ mobiles_columns=”2″ columns_gap=”0.4rem” content_placement=”middle” css=”%7B%22default%22%3A%7B%22height%22%3A%22410px%22%7D%7D” hide_on_states=”tablets,mobiles”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22433px%22%2C%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2240px%22%2C%22height%22%3A%22300px%22%7D%7D” size=”full” image=”15951″][/vc_column][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22764px%22%2C%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23ffffff%22%2C%22font-size%22%3A%2225px%22%2C%22line-height%22%3A%2250px%22%2C%22background-color%22%3A%22linear-gradient%2890deg%2C%2306067d%2C%23ffffff%29%22%2C%22height%22%3A%2250px%22%7D%7D”]

Electric Mixer

Description: A mixer used for blending materials in laboratory or field settings.

Key Features: Variable speed settings for different mixing requirements.
Durable construction suitable for various materials.

Electric Mixer

[/vc_column_text][/vc_column][/vc_row][vc_row width=”full” columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops” height=”auto”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2240px%22%2C%22height%22%3A%22300px%22%7D%7D” size=”full” image=”15951″][/vc_column][/vc_row][vc_row columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22justify%22%7D%7D”]

Description: A mixer used for blending materials in laboratory or field settings.

Key Features: Variable speed settings for different mixing requirements.
Durable construction suitable for various materials.

[/vc_column_text][/vc_column][/vc_row][vc_row width=”custom” width_custom=”1960px” height=”auto” columns=”2″ laptops_columns=”2″ tablets_columns=”2″ mobiles_columns=”2″ columns_gap=”0.4rem” content_placement=”middle” css=”%7B%22default%22%3A%7B%22height%22%3A%22430px%22%7D%7D” hide_on_states=”tablets,mobiles”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22457px%22%2C%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2240px%22%2C%22height%22%3A%22325px%22%2C%22position%22%3A%22relative%22%2C%22right%22%3A%2220px%22%7D%7D” size=”full” image=”15950″][/vc_column][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22764px%22%2C%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23ffffff%22%2C%22font-size%22%3A%2225px%22%2C%22line-height%22%3A%2250px%22%2C%22background-color%22%3A%22linear-gradient%2890deg%2C%2306067d%2C%23ffffff%29%22%2C%22height%22%3A%2250px%22%7D%7D”]

Hydrometer Package

Description: An instrument used to measure the specific gravity or density of liquids.

Key Features: Includes multiple hydrometers for different density ranges.
Typically includes a graduated cylinder for testing samples.

Hydrometer Package

[/vc_column_text][/vc_column][/vc_row][vc_row width=”full” columns=”2″ laptops_columns=”2″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops” tablets_columns=”1″][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” size=”full” image=”15950″ css=”%7B%22default%22%3A%7B%22height%22%3A%22600px%22%7D%7D”][/vc_column][/vc_row][vc_row columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops” height=”auto”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22justify%22%7D%7D”]

Description: An instrument used to measure the specific gravity or density of liquids.

Key Features: Includes multiple hydrometers for different density ranges.
Typically includes a graduated cylinder for testing samples.

[/vc_column_text][/vc_column][/vc_row][vc_row width=”custom” width_custom=”1960px” height=”auto” columns=”2″ laptops_columns=”2″ tablets_columns=”2″ mobiles_columns=”2″ columns_gap=”0.4rem” content_placement=”middle” css=”%7B%22default%22%3A%7B%22height%22%3A%22450px%22%7D%7D” hide_on_states=”tablets,mobiles”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22412px%22%2C%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2240px%22%2C%22height%22%3A%22280px%22%2C%22position%22%3A%22relative%22%2C%22right%22%3A%2220px%22%7D%7D” size=”full” image=”15728″][/vc_column][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22764px%22%2C%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23ffffff%22%2C%22font-size%22%3A%2225px%22%2C%22line-height%22%3A%2250px%22%2C%22background-color%22%3A%22linear-gradient%2890deg%2C%2306067d%2C%23ffffff%29%22%2C%22height%22%3A%2250px%22%7D%7D”]

Triaxial Test Device (UU)

Description: The Triaxial Test Device (UU) is used for unconsolidated undrained triaxial compression tests on cylindrical soil samples to determine their mechanical properties under varying stress levels and drainage conditions. It is commonly used in geotechnical engineering for short-term stability assessments.

Key Features: Automated triaxial compression tests, capability to test undisturbed and remolded soil samples, adjustable test speed, and microprocessor-controlled drive system.

Physical Specifications: Dimensions: 47x61x115 cm, Weight: 105 kg, Testing speed: 0.001–51 mm/min, Power supply: 220 V, 50-60 Hz.

Triaxial Test Device (UU)

[/vc_column_text][/vc_column][/vc_row][vc_row width=”full” height=”auto” columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2240px%22%7D%7D” size=”full” image=”15728″][/vc_column][/vc_row][vc_row columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22justify%22%7D%7D”]

Key Features: Automated triaxial compression tests, capability to test undisturbed and remolded soil samples, adjustable test speed, and microprocessor-controlled drive system.

Physical Specifications: Dimensions: 47x61x115 cm, Weight: 105 kg, Testing speed: 0.001–51 mm/min, Power supply: 220 V, 50-60 Hz.

[/vc_column_text][/vc_column][/vc_row][vc_row width=”custom” width_custom=”1960px” height=”auto” columns=”2″ laptops_columns=”2″ tablets_columns=”2″ mobiles_columns=”2″ columns_gap=”0.4rem” content_placement=”middle” css=”%7B%22default%22%3A%7B%22height%22%3A%22440px%22%7D%7D” hide_on_states=”tablets,mobiles”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22400px%22%2C%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2240px%22%2C%22width%22%3A%22800px%22%2C%22height%22%3A%22275px%22%7D%7D” size=”full” image=”15940″][/vc_column][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22764px%22%2C%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23ffffff%22%2C%22font-size%22%3A%2225px%22%2C%22line-height%22%3A%2250px%22%2C%22background-color%22%3A%22linear-gradient%2890deg%2C%2306067d%2C%23ffffff%29%22%2C%22height%22%3A%2250px%22%7D%7D”]

CPTu Calibration Device

[/vc_column_text][us_separator size=”custom” height=”30px”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22font-size%22%3A%2215px%22%2C%22height%22%3A%22550px%22%7D%7D”]Description: The CPTu Calibration Device is used to ensure accurate and reliable data collection during Cone Penetration Testing (CPTu), which is widely used in geotechnical investigations to identify subsurface conditions and classify soil.

Key Features: Measures multiple parameters including tip resistance, sleeve friction, and pore pressure; high accuracy and repeatability; continuous soil profiling; industry-leading calibration procedures.

Physical Specifications: Dimensions: Length 290 mm, Diameter 35.8 mm; Weight: 1.66 kg; Cone Base Area: 10 cm²; Opening angle of bit: 60°; Side sleeve surface: 150 cm².[/vc_column_text][/vc_column][/vc_row][vc_row width=”full” columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops” height=”auto”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23ffffff%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2218px%22%2C%22line-height%22%3A%2250px%22%2C%22background-color%22%3A%22linear-gradient%2890deg%2C%2306067d%2C%23ffffff%29%22%7D%7D”]

CPTu Calibration Device

[/vc_column_text][/vc_column][/vc_row][vc_row width=”full” columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” size=”full” image=”15940″][/vc_column][/vc_row][vc_row columns=”2″ laptops_columns=”2″ tablets_columns=”1″ columns_gap=”0.4rem” content_placement=”middle” hide_on_states=”default,laptops” height=”auto”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22justify%22%7D%7D”]

Description: The CPTu Calibration Device is used to ensure accurate and reliable data collection during Cone Penetration Testing (CPTu), which is widely used in geotechnical investigations to identify subsurface conditions and classify soil.

Physical Specifications: Dimensions: Length 290 mm, Diameter 35.8 mm; Weight: 1.66 kg; Cone Base Area: 10 cm²; Opening angle of bit: 60°; Side sleeve surface: 150 cm².

[/vc_column_text][/vc_column][/vc_row][vc_row width=”custom” width_custom=”1960px” height=”auto” columns=”2″ laptops_columns=”2″ tablets_columns=”2″ mobiles_columns=”2″ columns_gap=”0.4rem” content_placement=”middle” css=”%7B%22default%22%3A%7B%22height%22%3A%22460px%22%7D%7D” hide_on_states=”tablets,mobiles”][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22435px%22%2C%22animation-name%22%3A%22afl%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][us_image align=”center” css=”%7B%22default%22%3A%7B%22color%22%3A%22%23000000%22%2C%22text-align%22%3A%22center%22%2C%22font-size%22%3A%2240px%22%2C%22height%22%3A%22315px%22%2C%22position%22%3A%22relative%22%2C%22right%22%3A%2220px%22%7D%7D” size=”full” image=”15730″][/vc_column][vc_column width=”1/2″ css=”%7B%22default%22%3A%7B%22height%22%3A%22760px%22%2C%22animation-name%22%3A%22afr%22%2C%22animation-delay%22%3A%220.5s%22%7D%7D”][vc_column_text css=”%7B%22default%22%3A%7B%22color%22%3A%22%23ffffff%22%2C%22font-size%22%3A%2225px%22%2C%22line-height%22%3A%2250px%22%2C%22background-color%22%3A%22linear-gradient%2890deg%2C%2306067d%2C%23ffffff%29%22%2C%22height%22%3A%2250px%22%7D%7D”]

Sieve Analysis

Description: Sieve analysis is a method used to determine the particle size distribution of granular materials, such as soil, sand, and aggregates. It is widely used in civil engineering and other industries to classify materials and assess their suitability for various applications.

Key Features: Includes test sieves and sieve shakers; suitable for dry and wet sieving; allows separation of particles based on size; durable and corrosion-resistant materials; supports multiple sieve layers for detailed analysis.

Sieve Analysis

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PS Logger

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Description: The PS Logger is a unique sonic probe that determines P and S wave velocities from a single borehole without the need for an external source. Excellent data can be achieved across the spectrum of strata from unconsolidated sediments to the hardest of rocks. With minimal borehole preparation required and a high tolerance to surface noise the system has become the industry reference method for subsurface stiffness determination for many large civil engineering projects.

Key Features: The PS Logger probe contains a unique design of powerful hammer source and two receivers, separated by acoustic damping tubes.
To acquire data, the probe is stopped at the required depth and the source is fired under surface command. Firing causes a solenoid-operated shuttle aligned across the borehole axis to strike plates on opposite sides of the probe in turn, setting up a pressure doublet in the surrounding fluid. The resultant fluid motion produces a tube wave at the borehole wall with velocity close to the shear velocity of the formation together with a compressional wave.

Physical Specifications: Diameter:50mm, Assembled length:6.07m – 7.07m (1 or 2m filter), Shipping case length:1.45m (4.75ft) supplied in two transport cases, Assembled weight:26.5kg – 28kg (1 or 2m filter), Max. temperature:70°C, Max. pressure:6.5MPa, Transducer type: solenoid and hammer, Receiver type:3D hydrophones (p), geophones (s), Receiver spacing:1000mm (3.28ft), Waveform acquisition period:5.12mS to 409.6mS, Sampling:2.5μs minimum, Down-hole gain:0db to 42db (surface control)

PS Logger

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CPTu Device

Description: CPTu is a method used to determine the type, strength, and boundary limits between different soil types and their geotechnical engineering properties. It involves pushing a cone-shaped device into the ground to measure tip resistance, dynamic pore pressure, and sleeve friction, providing data for geological subsurface modeling.

Key Features: CPTu is a method used to determine the type, strength, and boundary limits between different soil types and their geotechnical engineering properties. It involves pushing a cone-shaped device into the ground to measure tip resistance, dynamic pore pressure, and sleeve friction, providing data for geological subsurface modeling.

Physical Specifications: Cone base area: 10 cm², cone angle: 60°, length: 290 mm, diameter: 35.8 mm, weight: 1.66 kg.

CPTu Device

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Physical Specifications: Cone base area: 10 cm², cone angle: 60°, length: 290 mm, diameter: 35.8 mm, weight: 1.66 kg.

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Pocket Shear Vane Set

Description: The Pocket Shear Vane Set is a scientifically designed soil testing instrument used for the rapid determination of shear strength of cohesive soils, either in the field or in the laboratory. It allows for the determination of multiple strength values with different orientations of failure planes and eliminates the need for sample trimming.

Key Features: Portable and easy to use; measures shear strength of cohesive soils; includes three vane sizes for different soil consistencies; calibrated dial for direct shear stress readings; robust carry case for field use.

Physical Specifications: Dimensions: 28 x 23 x 8 cm; Weight: 400 g.

Pocket Shear Vane Set

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Physical Specifications: Dimensions: 28 x 23 x 8 cm; Weight: 400 g.

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Pocket Penetrometer

Description: A Pocket Penetrometer is a handheld measuring tool used to evaluate the penetration resistance and compression strength of soils. It provides rapid estimates of unconfined compressive strength, crucial for determining soil stability and safety during trench excavations.

Key Features: Compact and lightweight; provides quick soil analysis; direct-reading scale in tons/sq. ft. or kg/sq. cm; rust-resistant construction; includes carrying case

Physical Specifications: Dimensions: 20 mm diameter x 173 mm length; Weight: approximately 0.5 kg.
Measurement Range: The Pocket Penetrometer is designed to measure soil strengths up to a certain range, typically up to 4.5 kg/cm² or 64 psi.

Pocket Penetrometer

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Key Features: Compact and lightweight; provides quick soil analysis; direct-reading scale in tons/sq. ft. or kg/sq. cm; rust-resistant construction; includes carrying case

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