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Towable CPT Trailer – Push System on Wheels!

New - Mount an S4 CPT Push System on equipment or a trailer! Customer response to our new S4 Push System has been very impressive. The most affordable and flexible 20 ton push system available has made CPT newly accessible to a variety of service providers around the world without the need for large dedicated vehicles. In keeping with our history of cone penetration innovation we'd proud to show off our latest improvement to the S4 Push System: Towability. That's right, the S4 can now be purchased attached to our custom trailer enabling it to be driven from job site to job site behind any full size pick-up truck. [/fusion_youtube]

By smadi66|December 3rd, 2019|Geotechnical Delaware, Geotechnical Kentucky, Geotechnical Idaho, Geotechnical Illinois, Geotechnical Georgia, Geotechnical Connecticut, Geotechnical Florida, Geotechnical Iowa, Geotechnical Kansas, Introductory, Cone Penetration, Video Posts, Geotechnical Indiana|0 Comments

Incotec Q&A: Cone Testing in Bolivia

CPT in South America Vertek's S4 Push System has made entry into the CPT market accessible for a growing list of geotechnical professionals. Here on our CPT U blog we often provide a closer look at some of these organizations and how their regional markets operate. One such company is a Bolivian construction and engineering group that's been in operation since 1968, but has just recently added CPT to their offerings thanks to a Vertek S4. Read on for our Q&A with Mario A. Teceros of Incotec. Provide a brief background on your company. How/when did it originate? It was established in 1968. Is one of the oldest operating construction companies in Bolivia. It was initially created to build urban infrastructure and housing. Rapidly entered to the civil works and the deep foundations market. Incotec also started with the first geotechnical equipment (SPT and DPM) in 1968. Since then, beside the experience in different type of projects (ranging from concrete structures to industrial constructions and dams), the speciality in deep and special foundations has been the main "stamp" of Incotec. Is family company and now the third generation is working. What is the scope and focus of Incotec today? More specialization in all the fields of its activities, mainly with the incorporation of cutting edge equipments for soil tests (SCPTu from Vertek), deep foundation construction (BG18, BG20 and BG 30 from Bauer, with tools for Full Displacement Piles, Cutter Soil Mixing, cased piles) and quality controls (From Pile Dynamics, PIT, Cross Hole and PDA). But the main product developed by Incotec during the last decade is the EXpander Body, a steel folded "balloon" that is installed at the tip of a pile or an anchor. The EB is then injected with grout to expand it, compacting the surrounding soil and [...]

By smadi66|December 3rd, 2019|Geotechnical Kentucky, Geotechnical Illinois, Geotechnical Georgia, Geotechnical Florida, Geotechnical Iowa, Geotechnical Kansas, Vertek Partners, Geotechnical Idaho, Geotechnical Louisiana, Geotechnical Maine, Geotechnical Indiana|0 Comments

Geotechnical Investigation and CPT Papers Now Available From CPT ’14

Did you attend CPT '14 in Las Vegas, Nevada? If so then you know the wealth of geotechnical expertise that was shared, and if not, then be sure to examine the scope of professional papers published from the event available for review now on their website. FEATURED PAPERS Whether you are a seasoned CPT veteran or just considering entering the cone penetration profession, the topics covered at CPT '14 provide current geotechnical expertise that you can benefit from. Some of the topics covered include: The effect of sleeve diameter on fs measurements Axial and torsional axisymmetric laboratory interface shear tests for CPT attachment studies Geotechnical Offshore Seabed Tool (GOST): A new cone penetrometer Evaluating rolling dynamic compaction of fill using CPT Verification of compaction grouting program using CPT in liquefiable soils Use of CPT for stability and performance evaluation of Mississippi River Revetment slope in New Orleans Role of CPTu in design of large Atlantic port terminal in Costa Rica Use of CPT for design, monitoring, and performance verification of compaction projects Using piezocone to assess strength gain of gold tailings in semi-arid environment Interpretation of geotechnical parameters from seismic piezocone tests Novel applications of CPT for verification of ground improvement projects Fault study using CPT, drill and trenching data Shear strength evaluation of preloaded stabilized dredged sediments using CPT

By smadi66|December 3rd, 2019|Geotechnical Kentucky, Geotechnical Illinois, Geotechnical Maryland, Geotechnical Iowa, Geotechnical Kansas, Experienced, Geotechnical Idaho, Geotechnical Louisiana, Geotechnical Maine, Geotechnical Massachusetts, Geotechnical Indiana|0 Comments

What is Triaxial Testing and is it the Best Method for Testing Soil?

Those familiar with soil testing probably already know that there are a number of ways to test soil. One of the most common methods is the Standard Penetration Test, which is best known for its simplicity and versatility, but is held back by its lack of accuracy compared to more advanced options. More advanced methods include, of course, Cone Penetration Testing and Mud Rotary Drilling, both of which are common. Another common method is Triaxial Testing. What is Triaxial Testing? In order to conduct Triaxial Testing, you need a Triaxial Apparatus, which is made up of a Triaxial cell, universal testing machine and pressure control panel. For testing soil and other loose granular materials like sand and gravel, the material is placed in a cylindrical latex sleeve and submerged into a bath of water, or another liquid, which puts pressure on the sides of the cylinder. A circular metal plate at the top of the cylinder, called a platen, then squeezes the material. The distance the platen travels is measured, along with the net change in volume of the material. Like Cone Penetration Testing, Triaxial Testing is used to measure the properties of soils, but can also be used on more solid materials like rock. Typically, Triaxial Testing is used to solve problems of stability by: Determining the shear strength and stiffness of soil when retaining reservoirs of water Measuring stress/strain behavior Monitoring the internal response of the particulate medium It is also used for pore water pressure measurement and determining contractive behavior, which is common in sandy soil. As such, this soil testing method is well-suited to helping engineers improve their building designs while limiting structural/build failures by imparting a proper understanding of material behavior and an assessment of the characteristics of a build site. Primary benefits of Triaxial [...]

By smadi66|December 3rd, 2019|Geotechnical Minnesota, Geotechnical Iowa, Geotechnical Kansas, Introductory, Cone Penetration, Soil Testing, Geotechnical Louisiana, Geotechnical Indiana, Geotechnical Maine, Geotechnical Kentucky, Geotechnical Massachusetts, Geotechnical Michigan, Geotechnical Maryland|0 Comments

How to Interpret Soil Test Results from CPT Testing

Even if you already have a solid grasp of what Cone Penetration Testing is and how CPT rigs test soils, understanding soil test results is a bigger task. You likely already know that CPT rigs are equipped with automated interpretation programs, but that doesn't mean test results are easily readable right away. Fortunately, even if you aren't a technician, it is possible to gain some understanding into soil test results. Read on to find out how. The basics of soil test results At the most basic level, the results of CPT testing are based on the relationship between cone bearing, sleeve friction and pore water pressure. With these three measurements, you can learn quite a bit about soil composition and conditions. For example, friction ratio measured by the sleeve is used to determine soil type. Soil is then classified according to the Unified Soil Classification System (USCS). CPT can also measure: Soil parameters Computer calculations of interpreted soil behavior types (SBT) Additional geotechnical parameters It's also possible to determine temperature shifts and zero load offset through the use of baseline readings. This essentially means comparing test results to those generated from initial testing before work begins on a site. With careful observation, it's possible to determine even more about the soil tested. Some examples include noting trends in water content to determine the type of soil (ie, sand does not retain water as well as clay) and knowing that larger values of cone resistance and sleeve friction usually indicate coarser soils, while lower values tend to indicate fine-grained soils. Although they won't put you on the level of a trained technician, these basics should make soil test results much easier to understand. More importantly, with this information in mind, you should have a much greater understanding of CPT testing as [...]

By smadi66|December 3rd, 2019|Geotechnical Mississippi, CPT Data, Introductory, Soil Testing, Geotechnical Louisiana, Geotechnical Kentucky, Geotechnical Maine, Geotechnical Michigan, Geotechnical Massachusetts, Geotechnical Missouri, Geotechnical Maryland, Geotechnical Minnesota, Geotechnical Kansas|0 Comments

CPT Mini Track Rig – Our Most Compact Self-Powered Rig

New – The Mini-Track Rig provides all-terrain performance at an affordable capital cost! The latest addition to Vertek's robust line of self-propelled CPT rigs harnesses the popular 20-ton S4 Push System in a small but versatile package. This rubber-tracked rig is easy to maneuver, ideal for limited access areas, and maintains a low ground pressure of 4.5 psi. The S4 Mini-Track Rig provides a powerful carrier at an affordable price when compared to the cost of new construction equipment. Is the Mini-Track Rig right for your application? The Mini-Track Rig is ideal for situations where agility and low ground pressure are important At only 10.5 feet long, it can be transported to job sites with a pick-up and trailer The S4 CPT system's tilt mount increases stability on uneven terrain and provides a low profile during transport The S4 can be removed and attached to construction equipment or custom trailers, allowing for any number of configurations The Mini-Track Rig is available with many options to meet all your testing needs. Though small and light, the Mini-Track Rig provides convenience and functionality similar to Vertek's larger purpose-built CPT rigs. Optional features include: Mechanical or Hydraulic Clamp Diesel or Gas Engine 300,350,400, or 500 mm Anchor Decontamination System Remote Operation 120V AC Inverter Rod Rack For a full list of features, specifications and technical data, visit vertekcpt.com or download our full catalog of Geotechnical and Environmental products.

By smadi66|December 2nd, 2019|Geotechnical Iowa, Geotechnical Kansas, S4 Push System, Geotechnical Delaware, Geotechnical Idaho, Geotechnical Indiana, Geotechnical Kentucky, Geotechnical Illinois, Geotechnical Georgia, Geotechnical Connecticut, Geotechnical Florida|0 Comments

Beyond the Basics: Contamination Detection and Other Applications of CPT Equipment

Cone Penetration Testing equipment was originally designed – and is still most commonly used – to characterize subsurface soil behavior types. But when you invest in CPT equipment, you are getting the capability to do much more. A variety of sensors and in-situ samplers can be integrated into CPT modules, making CPT equipment a versatile and efficient choice for contamination detection, environmental site assessment, and other field applications. CPT equipment has several advantages over conventional hollow stem auger drilling and percussion drilling based methods, especially in contaminated soils. Specialized CPT tests can identify contaminants and determine the physical extent of the contamination with minimal disturbance of the soil, thus avoiding costly disposal of drill cuttings and minimizing contact between field personnel and potentially hazardous materials. Here’s an overview of some tests and technologies that you can harness via CPT equipment: Temperature: Temperature data is obviously useful in locating zones of different ground temperature, for example frozen soil. However, it can also help to identify soil contaminants that generate heat due to chemical or biological activity. Electrical Resistivity: The electrical properties of soil are changed when the soil is contaminated. For example, soils containing non-aqueous-phase (NAPL) compounds exhibit higher resistivity than normal, while soils containing dissolved organic compounds such as can be found in landfill leachates have significantly lower resistivity. Fluorescence Detection: Most hydrocarbons produce fluorescence when irradiated with certain kinds of light. Thus, hydrocarbon contamination can be efficiently detected by integrating LEDs of a particular wavelength (or sometimes lasers) into CPT cone modules. The detected wavelength of the fluorescent response to the excitation source is graphed in real time and is used to determine the areas of interest and further define contaminants. The integrated camera or video camera module can also be used to visually inspect in-situ characteristics such as [...]

By smadi66|December 1st, 2019|Geotechnical Services, Geotechnical Delaware, Geotechnical Idaho, Geotechnical Indiana, Geotechnical Louisiana, Geotechnical Kentucky, Geotechnical Illinois, Geotechnical Georgia, Geotechnical Florida, Geotechnical Iowa, Geotechnical Kansas, Soil Testing|0 Comments

Understanding the Relationship between SPT Data and CPT Data

As you know, Cone Penetration Testing is not the only method for determining the mechanical properties of soil. Another method is the Standard Penetration Test, or SPT: in this test, a borehole is drilled to a desired depth, then a hollow sampler is inserted and driven downwards with a hammer. The hammer blows are counted until the sampler travels the desired depth (usually 18”) – this number, denoted NSPT, indicates the mechanical properties of the soil. As with CPT data, a handful of corrections are commonly applied: for example, the N60 value indicates NSPT data corrected for the mechanical efficiency of a manual hammer, estimated at 60% at shallow overburden conditions. Since SPT is one of the most common in-situ soil testing methods, you may find it necessary to compare information from both SPT and CPT tests, or convert from one set of parameters to the other, for example from SPT N60 values to CPT tip resistance values. Several methods have been proposed for calculating this relationship. Below are two of the most frequently used: Robertson and Campanella: This method for correlating SPT and CPT data uses the following relationship between SPT N60 data and CPT tip resistance: (qc/pa)/N60 qc = tip resistance (psi) pa = atmospheric pressure (psi) Soil behavior type can be determined from this equation based on the following table: This is perhaps the simplest method for relating the results of these two tests, but it can cause some confusion when the results fall on the border of two soil behavior type zones, or in situations where the ratio of CPT to SPT data could indicate one of several different soil types. Jefferies and Davies: This is a more robust method for determining SPT N-values based on CPT data, or vice versa. It avoids the discontinuities of [...]

By smadi66|December 1st, 2019|Geotechnical Idaho, Geotechnical Louisiana, Geotechnical Indiana, Geotechnical Maine, Geotechnical Kentucky, Geotechnical Illinois, Geotechnical Georgia, Geotechnical Maryland, Geotechnical Iowa, Geotechnical Kansas, CPT Data, Soil Testing|0 Comments

Human-Portable Hydraulic Power: The Vertek Lightweight CPT Push System

The Vertek Lightweight CPT Push System is the most portable hydraulic CPT push system on the market. Offering 10 tons of push force, yet compact enough to be transported and operated by a two-person team, this system is ideal for testing locations that would be inaccessible to a rig-based or truck-mounted system. Weighing only 480 pounds, the hydraulic load frame is can be transported to the job site via truck or small trailer, then unloaded and rolled to hard-to-access test locations by hand. The system is designed so that the handle weight is less than 25 lbs when tilted on its wheels for travel, and large tires make the system easy to roll on uneven ground. The hydraulic power pack and cylinders, weighing 430 lbs and 335 lbs respectively, are independent of the frame for ease of transportation. The system is easy to assemble and disassemble via hydraulic quick disconnects. The twin cylinders are coupled by a platen that can push or pull digital electronic or mechanical cones and water or soil samplers. The anchoring system includes four sturdy augers, a drive unit and all necessary tools. Watch the easy set-up and see the system at work in the video below. At Vertek CPT, we love to develop innovative yet practical CPT solutions with real ROI. Our Lightweight CPT Push System offers ultra-mobile yet robust hydraulic push power to bring your CPT business wherever you need to go. From lab applications to remote locations on rough terrain, this system is highly portable, economical, and provides enough depth and power for many types of soil tests. [/fusion_youtube]

By smadi66|November 29th, 2019|Geotechnical Maine, Geotechnical Massachusetts, Geotechnical Indiana, Geotechnical Kentucky, Geotechnical Illinois, Geotechnical Michigan, Geotechnical Maryland, Geotechnical Iowa, Geotechnical Kansas, Geotechnical Louisiana|0 Comments

Detecting a sinkhole: New device geared for homeowners – wave3.com-Louisville News, Weather & Sports

Detecting a sinkhole: New device geared for homeowners Karst map for the state of Kentucky (Source: Kentucky Geological Society)Karst map for the state of Kentucky (Source: Kentucky Geological Society) Map showing Karst in Indiana. (Source: Indiana Geological Survey)Map showing Karst in Indiana. (Source: Indiana Geological Survey) Matt Dettman developed MSEDS, short for Mechanical Sinkhole Early Detection System.Matt Dettman developed MSEDS, short for Mechanical Sinkhole Early Detection System.LOUISVILLE, KY (WAVE) - It could cost big bucks to detect whether a sinkhole could open up, but soon there may be a device developed in Kentucky to keep families safe nationwide.MORESLIDESHOW: How karst sinkholes formLearn how karst sinkholes form and whether or not you live in an at risk area.MoreGeological surveys to predict a sinkhole cost tens of thousands of dollars. Companies shell out $10,000 to $20,000 for a geotechnical and subsurface investigation before construction.The process isn't necessarily feasible for everyday people.However, a Western Kentucky University Geotechnical Engineer developed a device to detect what's happening beneath your feet.Karst terrain covers more than half of Kentucky. Karst sinkholes form when the bedrock of the Earth is slowly worn away by erosion.[SLIDESHOW: How karst sinkholes form]Under the top soil is a layer called the overburden. Under that is bedrock, which may seem tough and solid, but it's actually filled with cracks and crevices water is constantly seeping through and infiltrating. As the water erodes the bedrock, the overburden starts to fall down into the space left behind. Years later, all that's left is a thin layer and the potential for a sinkhole to open up.However, if there's a slab over the surface you may not know there's a problem until it's too late. That's why Matt Dettman developed MSEDS, short for Mechanical Sinkhole Early Detection System. Dettman is a WKU Associate Professor of Civil Engineering [...]

By smadi66|October 26th, 2017|Hopkinsville, Richmond, Florence, Sinkholes, Georgetown, Geotechnical Kentucky, Drilling, Drilling Kentucky, Louisville, Lexington, Bowling Green, Owensboro|0 Comments