Amatrol’s Basic Pneumatics training system (85-BP) introduces pneumatic principles through a combination of Amatrol’s top-flight multimedia curriculum with hands-on industrial pneumatic skill-building. Topics covered in this learning system include single-acting cylinder circuits, pressure vs. cylinder force, and flow control valves, while the panels can be used to practice skills such as connecting and operating a needle valve to control actuator speed.
Date: Wednesday, April 9 to Friday, April 11, 2025
Location: Kalahari Resort, Round Rock, Texas
Date: Wednesday, April 2 to Friday, April 4, 2025
Location: Embassy Suites, Grapevine, Texas
Date: Friday, August 1, 2025
Date: Tuesday, April 8 to Thursday, April 10, 2025
Location: Shangri-La Resort, Grand Lake, Oklahoma
The TacMed Clinical Response Lower (CRL) is designed to provide unparalleled realism and durability in simulating traumatic injuries for medical training scenarios.
The CRL features a full left leg with a hemostatic wound at the inguinal crease, requiring packing with gauze and measurable pressure application. Additionally, it includes a right leg amputation at the knee with a realistic tourniquet site and popliteal artery bleed. These features, coupled with advanced sensor technology, offer trainers and learners instantaneous feedback on applied pressure, bleeding occlusion time, and blood loss volume for after-action reporting.
Key Features
- Full-motion legs with autonomous response to treatment
- Packable wound, amputation, active bleeding & occlusion response, pulses, and tourniquet
- Intraosseous infusion, intramuscular injection, Foley catheter insertion
- Real-time digital feedback, crepitus (crushed pelvic region cue), and remote control capabilities
- Water-resistant, easy to clean, and maintain
The CRL can be paired with any upper torso trainer to optimize your training experience. Download our product flyer to explore all the features in detail and enhance your medical training simulations today!
Lower body simulators are advanced training tools designed to provide realistic and comprehensive education for medical professionals. These simulators replicate the anatomy and physiological functions of the lower extremities, including muscles, bones, joints, and vascular structures. They are used extensively in medical and nursing schools to enhance the practical skills of students, allowing them to practice procedures such as injections, suturing, and emergency interventions in a controlled and safe environment. By simulating real-life scenarios, these tools help trainees build confidence and competence, reducing the likelihood of errors in actual clinical settings.
One of the key features of lower body simulators is their ability to mimic various pathologies and conditions, from fractures and dislocations to vascular diseases and soft tissue injuries. This versatility enables educators to create diverse training modules that cater to different learning needs and specialties. For instance, students can practice orthopedic procedures like setting fractures and performing joint aspirations, or they can focus on vascular access techniques such as placing catheters or performing arterial punctures. The detailed anatomical accuracy and functional realism of these simulators ensure that learners gain a thorough understanding of both normal and pathological conditions of the lower extremities.
Moreover, the use of lower body simulators supports the shift towards more hands-on, experiential learning in medical education. By integrating these simulators into their curricula, educational institutions can provide students with ample opportunities to practice and refine their skills before encountering real patients. This not only enhances the quality of training but also improves patient outcomes by ensuring that future healthcare providers are well-prepared and proficient in essential clinical procedures. The ongoing development and innovation in simulation technology continue to push the boundaries of medical training, making it possible to achieve higher levels of precision and effectiveness in education and practice.
Upper body simulators are cutting-edge educational tools that provide a realistic and detailed representation of the human upper body, encompassing the thorax, arms, and head. These simulators are integral to medical and nursing education, offering hands-on practice in various procedures such as intravenous insertions, chest compressions, airway management, and surgical interventions. By incorporating realistic anatomical features and physiological responses, upper body simulators enable students to develop essential clinical skills in a safe, controlled environment, bridging the gap between theoretical knowledge and real-world application.
A standout feature of upper body simulators is their ability to simulate various medical conditions and scenarios. For example, they can replicate respiratory distress, cardiac events, and trauma injuries, allowing learners to practice critical interventions like intubation, defibrillation, and wound management. This versatility ensures that students are well-prepared for diverse clinical situations they may encounter in their professional careers. The high-fidelity design of these simulators includes lifelike skin, accurate anatomical landmarks, and responsive feedback systems, which help students refine their techniques and decision-making skills with precision and confidence.
Integrating upper body simulators into medical training programs supports a more interactive and immersive learning experience. These simulators facilitate repetitive practice and immediate feedback, which is crucial for mastering complex procedures and improving patient care outcomes. Educational institutions utilizing upper body simulators can offer their students a robust training regimen emphasizing experiential learning, critical thinking, and hands-on proficiency. As technology advances, upper body simulators are becoming increasingly sophisticated, providing even more realistic and effective training opportunities for the next generation of healthcare professionals.
Whole body simulators from TacMed Solutions represent the pinnacle of medical training technology, providing comprehensive, lifelike platforms for practicing a wide range of medical procedures and emergency interventions. These simulators encompass the full anatomical structure of the human body, enabling learners to engage in realistic training scenarios that cover everything from basic first aid to advanced trauma care. Designed with detailed anatomical accuracy, TacMed Solutions' whole body simulators feature realistic skin, internal organs, and physiological responses, allowing trainees to develop and refine their skills in a safe and controlled environment.
One of the key advantages of whole body simulators is their ability to simulate complex, multi-system injuries and medical conditions. Trainees can practice handling scenarios such as polytrauma, cardiac arrest, and respiratory failure, gaining invaluable experience in performing coordinated, life-saving interventions. The simulators' advanced feedback systems provide real-time responses to medical actions, offering immediate, actionable insights that help users improve their techniques and decision-making processes. This immersive training experience enhances technical proficiency and builds the confidence needed to manage critical situations in real-life clinical settings effectively.
Moreover, TacMed Solutions' whole body simulators are designed to support various training environments, from classroom instruction to field exercises. Their durability and versatility make them ideal for use in various educational settings, including medical schools, nursing programs, and emergency response training. By integrating these simulators into their curricula, institutions can offer a more dynamic and interactive learning experience that emphasizes hands-on practice and critical thinking. The commitment to quality and realism in TacMed Solutions' whole body simulators ensures that learners are thoroughly prepared to deliver high-quality care and improve patient outcomes in their professional practice.
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Item Number:85-BP -
Item Number:85-EHThe Electro-Hydraulics training system includes an electrical control panel with relay control components and an electrical valve module with solenoid-operated hydraulic directional control valves and electrical/electronic sensors. These components will be used to study a variety of topics including electrical control systems, basic control devices, power devices, control relays, sequencing control, timer control, pressure control applications, and circuit applications. -
In the rare event that a burning ember or spark is drawn into the fume extraction unit, there is the possibility that debris in the filters could ignite. Although any resultant fire would typically be retained within the fume extraction unit, this would cause significant damage and in extreme circumstances, the risk may extend beyond the extraction unit. For processes where such risks have been identified, additional protection in the form of an in-line firebox is an additional precaution.
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The BOFA inline pre-filter 1000 has been designed specifically for applications that generate high amounts of dust or particulate.
This inline filter unit is positioned alongside the main BOFA fume filtration system to increase the overall filter capacity and extend the life of the main filters. The DeepPleat DUO pre-filter incorporates a massive drop-out chamber within the filter, having a volume area of 15ltrs. Above the drop-out chamber but still within the housing there is a sealed 200mm deep pleat layer of F8 media giving a surface area in excess of 30 sq meters.
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The BOFA inline prefilters have been designed specifically for applications that generate high amounts of dust or particulate. -
Item Number:LMT-300LMT-300 CNC Mill-Turn is a cutting-edge aluminum cutting machine -
Item Number:LMV-300 CNCThe LMV-300 CNC machine dubbed “Quicksilver” delivers high rigidity, high accuracy and high-speed machining for all your cutting needs. The entire machine’s construction stably attaches to a granite bed thus dampening vibrations and making the machine a robust system. The cornerstone of the machine is that it is literally made from stone.
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A compact 3 axis CNC micromill milling machine with totally enclosed interlocking guards - the ideal introduction to small part CNC manufacture. Variable spindle speeds and feedrates make the MicroMill ideal for cutting resistant materials such as wax, plastic, acrylic, aluminum and free cutting alloys. -
A compact 2 axis CNC lathe, with totally enclosed interlocking guards - the ideal introduction to small part CNC manufacture. Variable spindle speeds and feedrates make the MicroTurn ideal for cutting resistant materials such as wax, plastic, acrylic, aluminum and free cutting alloys. -
Denford's high-spec / low-cost solution for all your routing, milling and engraving needs. The MRC 40 has a powerful 500W spindle motor and offers high speed manufacture linked with a large working envelope. This versatile machine handles small engraving jobs, and the large working envelope and Z axis capability (110mm) is perfect for the manufacture of large 3D designs. Set-up and tool changes are a simple process, and the MRC 40 has a host of optional extras for specialist applications.
