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Material Characterization Of A Dielectric Elastomer For The Design Of A Linear Actuator
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Book Synopsis Material Characterization of a Dielectric Elastomer for the Design of a Linear Actuator by : Alexander Tristan Helal
Download or read book Material Characterization of a Dielectric Elastomer for the Design of a Linear Actuator written by Alexander Tristan Helal and published by . This book was released on 2017 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Electrical motors and/or hydraulics and pneumatics cylinders are commonly used methods of actuation in mechanical systems. Over the last two decades, due to arising market needs, novel self-independent mobile systems such as mobility assistive devices have emerged with the help of new advancements in technology. The actuation criteria for these devices differ greatly from typical mechanical systems, which has made the implementation of classical actuators difficult within modern assistive devices. Among the numerous challenges, limited energy storage capabilities by mobile systems have restricted their achievable operational time. Furthermore, new expectations for device weight and volume, as well as actuator structural compliance, have added to this quandary. Electroactive polymers, a category of smart materials, have emerged as a strong contender for the use in low-cost efficient actuators. They have demonstrated great potential in soft robotic and assistive device/prosthetic applications due to their actuation potential and similar mechanical behaviour to human skeletal muscles. Dielectric Elastomers, in particular, have shown very promising properties for these types of applications. Their structures have shown large achievable deformation, while remaining light-weight, mechanically efficient, and low-cost. This thesis aims to characterize, and model the behaviour of 3MTM VHB polyacrylic dielectric elastomer, in order to establish a foundation for its implementation in a proposed novel linear actuator concept. In this thesis, a comprehensive experimental evaluation is accomplished, which resulted in the better understanding of the elastomer's biaxial mechanical and electro-mechanically coupled behaviours. Subsequently, a constitutive biaxial mechanical model was derived in order to provide a predictive design equation for future actuator development. This model proved effective in providing a predictive tool for the biaxial mechanical tensile response of the material. Finally, a simplified prototype was devised as a proof of concept. This first iteration applied experimental findings to validate the working principles behind the proposed actuator design. The results confirmed the proof of concept, through achieved reciprocal linear motion, and provided insight into the design considerations for prototype optimization and final actuator development.
Book Synopsis Design of Diaphragm Dielectric Elastomer Actuators (DEAs) and Experimental Characterization Techniques by : Micah Hodgins
Download or read book Design of Diaphragm Dielectric Elastomer Actuators (DEAs) and Experimental Characterization Techniques written by Micah Hodgins and published by . This book was released on 2017 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Dielectric Elastomers as Electromechanical Transducers by : Federico Carpi
Download or read book Dielectric Elastomers as Electromechanical Transducers written by Federico Carpi and published by Elsevier. This book was released on 2011-09-06 with total page 344 pages. Available in PDF, EPUB and Kindle. Book excerpt: Dielectric Elastomers as Electromechanical Transducers provides a comprehensive and updated insight into dielectric elastomers; one of the most promising classes of polymer-based smart materials and technologies. This technology can be used in a very broad range of applications, from robotics and automation to the biomedical field. The need for improved transducer performance has resulted in considerable efforts towards the development of devices relying on materials with intrinsic transduction properties. These materials, often termed as “smart or “intelligent , include improved piezoelectrics and magnetostrictive or shape-memory materials. Emerging electromechanical transduction technologies, based on so-called ElectroActive Polymers (EAP), have gained considerable attention. EAP offer the potential for performance exceeding other smart materials, while retaining the cost and versatility inherent to polymer materials. Within the EAP family, “dielectric elastomers , are of particular interest as they show good overall performance, simplicity of structure and robustness. Dielectric elastomer transducers are rapidly emerging as high-performance “pseudo-muscular actuators, useful for different kinds of tasks. Further, in addition to actuation, dielectric elastomers have also been shown to offer unique possibilities for improved generator and sensing devices. Dielectric elastomer transduction is enabling an enormous range of new applications that were precluded to any other EAP or smart-material technology until recently. This book provides a comprehensive and updated insight into dielectric elastomer transduction, covering all its fundamental aspects. The book deals with transduction principles, basic materials properties, design of efficient device architectures, material and device modelling, along with applications. Concise and comprehensive treatment for practitioners and academics Guides the reader through the latest developments in electroactive-polymer-based technology Designed for ease of use with sections on fundamentals, materials, devices, models and applications
Book Synopsis Modeling, Processing, and Characterization of Dielectric Elastomer Actuators and Sensors by : Kevin Kadooka
Download or read book Modeling, Processing, and Characterization of Dielectric Elastomer Actuators and Sensors written by Kevin Kadooka and published by . This book was released on 2017 with total page 136 pages. Available in PDF, EPUB and Kindle. Book excerpt: Over the past two decades, electroactive polymers (EAP) have been studied as a material for soft actuator and sensor systems. Dielectric elastomers (DE) are an EAP material which relies on the electrostatic force produced on compliant electrodes to produce deformation. In the converse sense, DE sensors can be used by measuring the electrical energy or impedance change produced under deformation. The two key limitations barring DE from commercial use are high driving voltage, and low output force. The scope of this work is as follows: to improve upon these two limitations by processing of actuators by a pneumatic dispenser, by adding tactile sensing and variable stiffness properties to the actuators, and developing a mechanical model to predict the actuator behavior. This work focuses specifically on the unimorph dielectric elastomer actuator (DEA), which consists of a DE laminate which contracts in the thickness direction and expands in-plane under applied voltage, and is constrained on one face by a passive material, resulting in bending of the structure. The first part of the work is devoted to fabrication, modeling, and characterization of multilayer unimorph DEA. Fabrication is done using two schemes – the first is a conventional one, using commercially available DE films, and the second is a novel method using a robotic dispenser system. The latter technique has two objectives. The first is to reduce the thickness of the DE layers to reduce driving voltage, since the DE deformation is proportional to the square of the applied electric field which itself is inversely proportional to electrode separation. The second is to deposit higher-performance DE materials, in this case, PVDF terpolymer, which exhibits large actuation stresses because of its high dielectric constant and relatively high Young’s modulus. Using the dispenser, DE layers with 10 μm thick layers are repeatably produced, requiring actuation voltages one order of magnitude less than conventional thick DE films. Standard deviation of displacement and blocking force do not exceed 10% and 15% of the mean after 2 minutes of deformation, respectively. Elastic and viscoelastic models are developed for multilayer unimorph DEA consisting of flat and curved geometries. Both models were validated in comparison with experimental data with the latter shown to agree with the experimental data to within one standard deviation of the mean for majority of the deformation. The second section demonstrates the novel use of electrolaminates to create variable stiffness DEA (VSDEA). Variable stiffness structures are of particular interest for soft actuators, because they allow switching between a low stiffness, high displacement mode and a high stiffness mode with large holding force. One device is demonstrated by simply utilizing the passive layer of a DEA as part of an electrolaminate, allowing for four-fold increase in bending rigidity. Another device is demonstrated consisting of a bundle of parallel DEA with electrostatic chucking features to modulate shear strength of the interfaces. This device exhibits a 39-fold increase in stiffness, and a claw actuator using these actuators is capable of lifting an object 17 times its own weight. The final part of this work investigates two novel tactile sensors based on dielectric elastomers (DES). The first uses a dome-shaped protrusion to redistribute tactile forces onto an array of four capacitive sensors. The change in capacitance of the four sensors is used to measure and discriminate the force components of the impinging force. An array of these dome DES are fabricated using the dispenser system, and the ability to differentiate between normal and shear forces was demonstrated, as well as its proximity sensing ability. The tactile sensor array is also shown integrated as the passive layer of a DEA, providing tactile and proximity sensing capability to the actuator. The second tactile sensor features high resolution and scalability, and is built in to a medical assistive device coined the “artery mapper” and is used to determine the location of a target artery for arterial line placement. It is demonstrated locating an artery on a test subject, possible due to its force resolution on the order of 2.8 kPa.
Book Synopsis Electroactivity in Polymeric Materials by : Lenore Rasmussen
Download or read book Electroactivity in Polymeric Materials written by Lenore Rasmussen and published by Springer Science & Business Media. This book was released on 2012-03-02 with total page 163 pages. Available in PDF, EPUB and Kindle. Book excerpt: Electroactivity in Polymeric Materials provides an in-depth view of the theory of electroactivity and explores exactly how and why various electroactive phenomena occur. The book explains the theory behind electroactive bending (including ion-polymer-metal-composites –IPMCs), dielectric elastomers, electroactive contraction, and electroactive contraction-expansion cycles. The book also balances theory with applications – how electroactivity can be used – drawing inspiration from the manmade mechanical world and the natural world around us.
Book Synopsis Methods In Biomechanics and Bionics by : Zhen Luo
Download or read book Methods In Biomechanics and Bionics written by Zhen Luo and published by Frontiers Media SA. This book was released on 2024-01-02 with total page 257 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Soft Robotics in Rehabilitation by : Amir Jafari
Download or read book Soft Robotics in Rehabilitation written by Amir Jafari and published by Academic Press. This book was released on 2021-02-20 with total page 280 pages. Available in PDF, EPUB and Kindle. Book excerpt: Soft Robotics in Rehabilitation explores the specific branch of robotics dealing with developing robots from compliant and flexible materials. Unlike robots built from rigid materials, soft robots behave the way in which living organs move and adapt to their surroundings and allow for increased flexibility and adaptability for the user. This book is a comprehensive reference discussing the application of soft robotics for rehabilitation of upper and lower extremities separated by various limbs. The book examines various techniques applied in soft robotics, including the development of soft actuators, rigid actuators with soft behavior, intrinsically soft actuators, and soft sensors. This book is perfect for graduate students, researchers, and professional engineers in robotics, control, mechanical, and electrical engineering who are interested in soft robotics, artificial intelligence, rehabilitation therapy, and medical and rehabilitation device design and manufacturing. Outlines the application of soft robotic techniques to design platforms that provide rehabilitation therapy for disabled persons to help improve their motor functions Discusses the application of soft robotics for rehabilitation of upper and lower extremities separated by various limbs Offers readers the ability to find soft robotics devices, methods, and results for any limb, and then compare the results with other options provided in the book
Download or read book Endorobotics written by Luigi Manfredi and published by Academic Press. This book was released on 2022-01-04 with total page 410 pages. Available in PDF, EPUB and Kindle. Book excerpt: The book comprises three parts. The first part provides the state-of-the-art of robots for endoscopy (endorobots), including devices already available in the market and those that are still at the R&D stage. The second part focusses on the engineering design; it includes the use of polymers for soft robotics, comparing their advantages and limitations with those of their more rigid counterparts. The third part includes the project management of a multidisciplinary team, the health cost of current technology, and how a cost-effective device can have a substantial impact on the market. It also includes information on data governance, ethical and legal frameworks, and all steps needed to make this new technology available. Focuses on a new design paradigm for endorobots applications Provides a unique collection of engineering, medical and management contributions for endorobotics design Describes endorobotics, starting from available devices in both clinical use and academia
Book Synopsis Electroactive Polymer (EAP) Actuators as Artificial Muscles by : Yoseph Bar-Cohen
Download or read book Electroactive Polymer (EAP) Actuators as Artificial Muscles written by Yoseph Bar-Cohen and published by SPIE Press. This book was released on 2004 with total page 790 pages. Available in PDF, EPUB and Kindle. Book excerpt: Covers the field of EAP with attention to all aspects and full infrastructure, including the available materials, analytical models, processing techniques, and characterization methods. This second edition covers advances in EAP in electric EAP, electroactive polymer gels, ionomeric polymer-metal composites, and carbon nanotube actuators.
Book Synopsis Advances in the Analysis and Design of Marine Structures by : J. W. Ringsberg
Download or read book Advances in the Analysis and Design of Marine Structures written by J. W. Ringsberg and published by CRC Press. This book was released on 2023-04-14 with total page 921 pages. Available in PDF, EPUB and Kindle. Book excerpt: Advances in the Analysis and Design of Marine Structures is a collection of papers presented at MARSTRUCT 2023, the 9th International Conference on Marine Structures, held in Gothenburg, Sweden, 3-5 April 2023. The conference was organised by the Division of Marine Technology, Department of Mechanics and Maritime Sciences at Chalmers University of Technology, in Gothenburg, Sweden. The MARSTRUCT Conference series deals with Ship and Offshore Structures, addressing topics in the fields of: Methods and tools for loads and load effects Methods and tools for strength assessment Experimental analysis of structures Materials and fabrication of structures Methods and tools for structural design and optimization Structural reliability, safety, and environmental protection The MARSTRUCT conferences series of started in Glasgow, UK in 2007, the second event of the series took place in Lisbon, Portugal in March 2009, the third in Hamburg, Germany in March 2011, the fourth in Espoo, Finland in March 2013, the fifth in Southampton, UK in March 2015, the sixth in Lisbon, Portugal in May 2017, the seventh in Dubrovnik, Croatia in May 2019, and the eighth event in Trondheim, Norway in June 2021. Advances in the Analysis and Design of Marine Structures is essential reading for academics, engineers and all professionals involved in the design of marine and offshore structures. The Proceedings in Marine Technology and Ocean Engineering series is devoted to the publication of proceedings of peer-reviewed international conferences dealing with various aspects of ‘Marine Technology and Ocean Engineering’. The Series includes the proceedings of the following conferences: the International Maritime Association of the Mediterranean (IMAM) Conferences, the Marine Structures (MARSTRUCT) Conferences, the Renewable Energies Offshore (RENEW) Conferences and the Maritime Technology (MARTECH) Conferences. The ‘Marine Technology and Ocean Engineering’ series is also open to new conferences that cover topics on the sustainable exploration and exploitation of marine resources in various fields, such as maritime transport and ports, usage of the ocean including coastal areas, nautical activities, the exploration and exploitation of mineral resources, the protection of the marine environment and its resources, and risk analysis, safety and reliability. The aim of the series is to stimulate advanced education and training through the wide dissemination of the results of scientific research.
Book Synopsis Level Set Methods and Dynamic Implicit Surfaces by : Stanley Osher
Download or read book Level Set Methods and Dynamic Implicit Surfaces written by Stanley Osher and published by Springer Science & Business Media. This book was released on 2006-04-06 with total page 292 pages. Available in PDF, EPUB and Kindle. Book excerpt: Very hot area with a wide range of applications; Gives complete numerical analysis and recipes, which will enable readers to quickly apply the techniques to real problems; Includes two new techniques pioneered by Osher and Fedkiw; Osher and Fedkiw are internationally well-known researchers in this area
Book Synopsis Electroactive Polymers for Robotic Applications by : Kwang J. Kim
Download or read book Electroactive Polymers for Robotic Applications written by Kwang J. Kim and published by Springer Science & Business Media. This book was released on 2007-01-17 with total page 288 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book covers the fundamental properties, modeling, and demonstration of Electroactive polymers in robotic applications. It particularly details artificial muscles and sensors. In addition, the book discusses the properties and uses in robotics applications of ionic polymer–metal composite actuators and dielectric elastomers.
Book Synopsis Electromechanically Active Polymers by : Federico Carpi
Download or read book Electromechanically Active Polymers written by Federico Carpi and published by . This book was released on with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Current Advances in Soft Robotics: Best Papers From RoboSoft 2018 by : Helmut Hauser
Download or read book Current Advances in Soft Robotics: Best Papers From RoboSoft 2018 written by Helmut Hauser and published by Frontiers Media SA. This book was released on 2020-06-04 with total page 122 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Dielectric Elastomers for Actuation and Energy Harvesting by : Paul A. Brochu
Download or read book Dielectric Elastomers for Actuation and Energy Harvesting written by Paul A. Brochu and published by . This book was released on 2012 with total page 240 pages. Available in PDF, EPUB and Kindle. Book excerpt: Dielectric elastomers are an emerging transducer technology that fit an interesting niche. They are soft and compliant by nature, and can be stretched, either via mechanical or electrically-induced means, to very large strains. They are capable of large strains, high energy densities, and low costs, while possessing the additional advantages of being light weight and conformable. Dielectric elastomers are well suited for both actuator and generator applications, with the actuators being heralded as artificial muscles. There remains, however, several issues that prevent the widespread adoption of dielectric elastomer technology. Each applications has its set of technical issues; for actuator purposes, the primary issues are that the driving voltage required for high performance is in excess of 2000 V for most dielectric elastomer actuators, and that the lifetime when operated at high performance levels is rather short. The requirement to prestrain the elastomers to achieve high performance actuation in most cases can also add significant bulk and mass to the actuator as well as reduce its shelf-life. Thus, materials capable of high-strain performance without the requirement for prestrain are sought after. The ability to operate over a wide range of temperatures and environmental conditions, as well as operate over a wide range of frequencies, is also very important for most actuator applications. The first part of this dissertation looks to tackle the aforementioned issues. Silicone materials are chosen as the base dielectric elastomer material as they are generally capable of operating over wide ranges of temperature and frequency and are generally unaffected by moisture and have good environmental stability. The work focuses on free-standing linear soft silicone actuators as this configuration is the most relevant for real applications. A particular soft silicone has been isolated a good candidate and was extensively tested in a free-standing linear actuator configuration to determine the effects of pre-stretch and the application of mechanical loads on its actuation performance. It is shown that when the mechanical loads are properly applied, large linear actuation strains of 120% and work density of 0.5 J/cm3 can be obtained. Furthermore, we demonstrate that when coupled with single wall carbon nanotube (SWNT) compliant electrodes, fault-tolerance is introduced via self-clearing leading to significantly improved operational reliability. Driven at moderate electric fields, the actuators display relatively high linear actuation strain (25%) without degradation of the electromechanical performance even after 85,000 cycles. An issue related to the use of soft silicone actuators is that the work density is not very high when compared with many of the high-performance dielectric elastomer materials available. It is shown that the force output and work density of soft silicone actuators can be significantly enhanced by the addition of high permittivity titanium oxide nanoparticles. The nanocomposites are capable of maintaining the actuation strain performance of the pure silicone at relatively low electric fields while increasing the force output and work density due to the additive effects of mechanical reinforcement and permittivity enhancement. The high performance of the aforementioned soft silicone actuators requires the application of rather large levels of prestrain. In order to eliminate this requirement a novel all-silicone prestrain-locked interpenetrating polymer network (S-IPN) elastomer was developed. The elastomer is fabricated using a combination of two silicones: a soft room temperature vulcanizing silicone that serves as the host elastomer matrix, and a more rigid high temperature vulcanizing silicone that acts to preserve the prestrain in the host network. The free-standing prestrain-locked silicones show a more than twofold performance improvement over standard free-standing silicone films, with a linear strain of 25% and an area strain of 45% when tested in a diaphragm configuration. The S-IPN procedure was leveraged to improve electrode adhesion and stability as well as improve the interlayer adhesion in multilayer actuators. It is demonstrated that strongly bonded SWNT electrodes are capable of fault tolerance through self-clearing, even in multilayer actuators. The fault-tolerance and improved interlayer adhesion was used to fabricate prestrained free-standing silicone actuators capable of stable long life actuation (>30,000 cycles at>20% strain and>500 cycles at ~40% strain) while driving a load. Issues related to gradual electrode degradation are also addressed through the use of quasi-buckled electrodes. For generator purposes, the primary concerns are ensuring environmental stability, increasing energy density, lowering losses, and determining effective methods to couple the dielectric elastomer to natural energy sources. The factors that affect the energy density and efficiency are explored and it is found that energy density can be increased by applying larger mechanical strains and using stiffer materials. Increasing the permittivity of the material and bias voltage can also improve the energy density but reach a peak and decrease the energy density thereafter. The efficiency is shown to depend primarily on the shape of the stress-strain curve of the material, the applied strain, and a lumped parameter containing the stiffness, permittivity and nominal bias electric field. For a particular applied strain, the efficiency shows a peak at a particular value of the lumped parameter. Increasing stiffness shifts the location of the peak to higher values, and thus higher required electric fields, while increasing permittivity shifts it to lower values, and thus to lower electric fields. Using the results of this analysis, two material systems are explored: VHB acrylic elastomers at various prestrains and with various amounts of a stiffening additive, and a high energy density silicone-TiO2 nanocomposite elastomer with various amounts of additive. It is shown that increasing prestrain in the VHB acrylic system increases the energy density, while the stiffening additive has the effect of making the acrylic stiffer but results in increased losses, result in poorer performance. The silicone TiO2 composite demonstrates an increase in permittivity and stiffness with increasing additive while maintaining very high dielectric breakdown strength values. These increases are partially offset by small increases in mechanical and electrical losses. Calculations based on a simple model show that the generator energy density can be improved by a factor of 3 for a 20wt.% TiO2 loading at a strain of 50% in area. The calculated generator energy density values exceed the maximum values measured experimentally for highly prestrained VHB4910 acrylic elastomers. The focus on high energy density materials ignores the fact that not all applications require such a material, and that some applications may, in fact, benefit from the use of a softer material that is less intrusive. However, for lower energy density materials, parasitic losses due to electrode resistance and viscoelasticity play a larger role as relative energy gains are lower. With this is mind, a soft silicone single walled carbon nanotube composite is developed. The composite is very soft, has low viscoelastic losses, and is capable of being stretched up to>150% strain with only a marginal increase in resistance. The composite is also capable of being repeatedly stretched at up to 120% strain for over 1000 cycles without any appreciable change in resistance and is capable of being stretched at strain rate up to 100%/s or higher without affecting the performance of the electrode. Two applications for dielectric elastomer actuators are also explored. A pressure-based ocean wave energy harvesting concept was introduced that does not use any moving parts. A footfall energy harvester concept is also developed capable of being deployed inside the sole of a shoe or as a flexible floor tile.
Book Synopsis Design of Shape Memory Alloy (SMA) Actuators by : Ashwin Rao
Download or read book Design of Shape Memory Alloy (SMA) Actuators written by Ashwin Rao and published by Springer. This book was released on 2015-05-08 with total page 137 pages. Available in PDF, EPUB and Kindle. Book excerpt: This short monograph presents an analysis and design methodology for shape memory alloy (SMA) components such as wires, beams, and springs for different applications. The solid-solid, diffusionless phase transformations in thermally responsive SMA allows them to demonstrate unique characteristics like superelasticity and shape memory effects. The combined sensing and actuating capabilities of such materials allows them to provide a system level response by combining multiple functions in a single material system. In SMA, the combined mechanical and thermal loading effects influence the functionality of such materials. The aim of this book is to make the analysis of these materials accessible to designers by developing a "strength of materials" approach to the analysis and design of such SMA components inspired from their various applications with a review of various factors influencing the design process for such materials.
Book Synopsis Development of Dielectric Elastomer Based Prototype Fiber Actuators by :
Download or read book Development of Dielectric Elastomer Based Prototype Fiber Actuators written by and published by . This book was released on 2004 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Dielectric elastomer based prototype fiber actuators have been developed based on the concept of cylindrical dielectric elastomer actuators (DEAs). The prototype fiber actuators have been built using commercially available dielectric elastomer tubes, having wall thickness in the range of 100-200 microns, and applying appropriate compliant electrodes to inner and outer wall of these tubes. Actuation behavior of prototype fiber actuators has been studied under different boundary conditions and as a function of applied electric field. Actuation behavior constitutes axial and radial actuation strains as well as blocking forces produced in the prototype upon actuation. Different boundary conditions were achieved by applying different prestrains on the dielectric elastomer tubes. Two types of prestrains, uniaxial and uniform, at different levels were applied. Uniaxially prestrained prototypes were fabricated by prestraining the dielectric elastomer tubes along the axial direction. Two dielectric elastomers, silicone and polyurethane, with compliant polymer based inner and outer electrodes were used for fabrication. Uniformly prestrained prototypes were fabricated by inflating the dielectric elastomer tubes with an inflation medium. To keep the actuator design simple, inner electrode was used as the inflation medium. A strong electrolyte was used as the inner electrode whereas a polymer based electrode was used as the outer electrode. An experimental set-up was designed to conduct the actuation experiments and evaluate the actuation behavior of prototype fiber actuators. Actuation strains were measured using image analysis techniques and actuation blocking forces were measured using a load cell coupled to the prototype fiber actuator. A parabolic relationship was observed between applied electric field and axial actuation strains, radial actuation strains and actuation blocking force for the developed prototypes. Upon actuation of the uniaxially prestrained prototypes it w.
