Hero Arm | Joel Gibbard | V&A Explore The Collections Image of License this image To license this image or for more information please contact our Licensing team. Email us We can manage your request more quickly if you include the following information: Image reference number: XXX Title and author (if applicable) Publisher/Producer/Broadcaster Planned release date Print run or number of units Image size and position, example 1/4 page, full screen, front cover, inside Languages/territorial distribution Digital rights - format details and license period Download image By downloading this image you agree that you will not use it commercially, as defined in our full terms and conditions You can use the image for: Non-commercial research and private study Teaching and instruction Non-commercial publishing (up to A5-size, and in print runs of up to 4000 copies) Non-commercial online use, up to 768 pixels, and for up to 5 years Please indicate that you accept all terms to proceed I agree to the full terms and conditions Other uses, including exhibition catalogue and display, broadcast, advertising, book jackets and commercial packaging, are covered by our commercial terms. Please contact our Licensing team for more information. JPG +17 +15 images On display Young V&A Design Gallery, Designing for Change section 2, Case 6 This object consists of 9 parts, some of which may be located elsewhere. Hero Arm Prosthetic 2020 Artist/Maker Joel Gibbard (Designer) Place of origin Bristol (Manufactured) The Hero Arm is a 3D printed, below elbow prosthesis with interchangable covers. The prosthetic is the world's first clinically approved 3D printed bionic arm and in 2022 became the lowest cost bionic prosthetic on the British NHS. At the time of aquisition the average bionic limb cost £60,000, whilst the Hero Arm cost £10,000. Advancements in 3D printing have seen a raft of affordable prosthetics released. Many of these designs, such as Project Daniel6 and e-NABLE7, are grassroots and open-source projects that are significantly cheaper than the Hero Arm. But while these designs have become lifechanging solutions for many, they provide a basic functionality that allows users to grip objects with a singular mechanical operation. The cababilities of the Hero Arm are significantly more complex than most affordable 3D printed prosthesis, enabling the user to perform actions that require delicate motor skills such as holding a makeup brush or a glass. The arm is a bionic prosthetic, with electric motors powered by a rechargable battery pack. The arm is controlled throughh myoelectric sensors that register small muscle movements in the user's residual limb. The user can cycle through six grip modes, instructing the fingers to grab, pinch, high-five, fist bump and thumbs-up. Feedback is given by flashing lights and vibrations. The ongoing development of the Hero Arm is exemplar of child-centred design and involving children in the design process. Early in the development of the Hero Arm, Open Bionics founders Samantha and Joel invited a group of children and young people with limb differences to feedback on prototypes, and to explore what their dream bionic limb would look and feel like. These co-design sessions early in the product's development resulted in numerous innovations, such as the development of 'Freeze Mode' - a button that fixes the fingers in place when gripping an object so that it cannot be dropped (a feature suggested by user Tilly Lockey). Perhaps the most interesting outcome from the co-design process was related to aesthetics rather than function. The children and young people consulted indicated that they did not want to hide their limb difference with a lifelike prosthetic but would rather celebrate it with something fantastical. Live sketches of the co-design process record young users of prosthetic limbs dreaming of fingers containing lipstick, the power of robot super strength, or a completely customisable arm that they could theme along their favourite colours, films and books. The children's playful, proud and imaginative approach to their dream limb directly informed the aesthetic design of the Hero Arm, with a new emphasis placed on the bionic 'superhero' aesthetic and movement of the arm, and a range of fanstistical customisable covers, including collaborations with 20TH Century Fox and Disney (including the Marvel, Star Wars and Frozen franchises). Delve deeper Discover more about this object read At the press of a button: A V&A history of 3D printing 3D printing is an additive form of manufacturing, which involves heating (otherwise known as 'extruding') plastic, such as PLA (Polylactic acid), ABS (Acrylonitrile Butadiene Styrene) or PET (Polyethylene terephthalate), or other types of material, such as sandstone, metal or resin, to con... Object details Categories Secrets of the Museum Digital Design Disability Children & Childhood Health Made by Children Object type Prosthetic Parts This object consists of 9 parts. Prosthetic Covers Covers Covers Linings Covers Covers Leaflets Boxes Title Hero Arm (manufacturer's title) Materials and techniques Plastic Metal Electronic Components 3D Printing Brief description Child's bionic arm, 'Hero Arm', Open Bionics (Bristol, UK), designed 2014 and manufactured 2020, laser-sintered Nylon 12 and electronic components Physical description Below-elbow prosthetic for a child. The main internal body of the arm is black, with a honeycomb ventilation structure and an Open Bionics branded rubber button on the back of the hand. The arm comes with magnetic removable covers - three plain red, and one plain black (acting as a spare). The arm does not come with a battery. Dimensions Body height: 410mm Body width: 100mm Body depth: 87mm Gallery label (01/07/2023) The final design A hidden honeycomb structure keeps the arm light. The wearer operates the hand through electrical impulses from their residual limb’s nerve endings. And the packaging can be opened single-handedly. Designer: Open Bionics Date: 2020 Location: Bristol, England Materials: Plastic, electronics (arm) and cardboard, plastic foam, metal (packaging) Museum no. B.14-2021 [Young V&A, Design Gallery, Design responds to our needs, short object label] Past Gallery Labels (31/06/2023) Hero Arm A customisable alternative to expensive and ill-fitting standard prosthetic arms. Young people with limb differences visited Open Bionics’ studio to imagine their ultimate prostheses. Together, they came up with a relatively cheap 3D-printed robotic arm, with interchangeable covers for wearers to express their style. Association Bristol Summary The Hero Arm is a 3D printed, below elbow prosthesis with interchangable covers. The prosthetic is the world's first clinically approved 3D printed bionic arm and in 2022 became the lowest cost bionic prosthetic on the British NHS. At the time of aquisition the average bionic limb cost £60,000, whilst the Hero Arm cost £10,000. Advancements in 3D printing have seen a raft of affordable prosthetics released. Many of these designs, such as Project Daniel6 and e-NABLE7, are grassroots and open-source projects that are significantly cheaper than the Hero Arm. But while these designs have become lifechanging solutions for many, they provide a basic functionality that allows users to grip objects with a singular mechanical operation. The cababilities of the Hero Arm are significantly more complex than most affordable 3D printed prosthesis, enabling the user to perform actions that require delicate motor skills such as holding a makeup brush or a glass. The arm is a bionic prosthetic, with electric motors powered by a rechargable battery pack. The arm is controlled throughh myoelectric sensors that register small muscle movements in the user's residual limb. The user can cycle through six grip modes, instructing the fingers to grab, pinch, high-five, fist bump and thumbs-up. Feedback is given by flashing lights and vibrations. The ongoing development of the Hero Arm is exemplar of child-centred design and involving children in the design process. Early in the development of the Hero Arm, Open Bionics founders Samantha and Joel invited a group of children and young people with limb differences to feedback on prototypes, and to explore what their dream bionic limb would look and feel like. These co-design sessions early in the product's development resulted in numerous innovations, such as the development of 'Freeze Mode' - a button that fixes the fingers in place when gripping an object so that it cannot be dropped (a feature suggested by user Tilly Lockey). Perhaps the most interesting outcome from the co-design process was related to aesthetics rather than function. The children and young people consulted indicated that they did not want to hide their limb difference with a lifelike prosthetic but would rather celebrate it with something fantastical. Live sketches of the co-design process record young users of prosthetic limbs dreaming of fingers containing lipstick, the power of robot super strength, or a completely customisable arm that they could theme along their favourite colours, films and books. The children's playful, proud and imaginative approach to their dream limb directly informed the aesthetic design of the Hero Arm, with a new emphasis placed on the bionic 'superhero' aesthetic and movement of the arm, and a range of fanstistical customisable covers, including collaborations with 20TH Century Fox and Disney (including the Marvel, Star Wars and Frozen franchises). Associated objects B.72-2023 (Accessory) B.73-2023 (Accessory) B.74-2023 (Accessory) B.75-2023 (Accessory) B.76-2023 (Accessory) Collection Young V&A Collection Accession number B.14-2021 About this object record Explore the Collections contains over a million catalogue records, and over half a million images. It is a working database that includes information compiled over the life of the museum. Some of our records may contain offensive and discriminatory language, or reflect outdated ideas, practice and analysis. We are committed to addressing these issues, and to review and update our records accordingly. You can write to us to suggest improvements to the record. Suggest feedback Record created March 11, 2021 Record URL Download as: JSON IIIF Manifest You may also like