{"version":1,"pages":[{"id":"-MPkSaWHJHRRfBMydxXW","title":"Welcome to Lab Pastoe!","pathname":"/lab-pastoe","siteSpaceId":"sitesp_qR4ev","description":"Lab Pastoe is a material experimentation space at HKU location Pastoe Fabriek."},{"id":"-MWx_xRVlC9qsyhV4Nsn","title":"What's new?","pathname":"/lab-pastoe/whats-new-lab-blog","siteSpaceId":"sitesp_qR4ev","description":"Sharing developments we are exited about."},{"id":"-MPpXRp1bP81o2N9svMP","title":"Available materials","pathname":"/lab-pastoe/materials/available-materials","siteSpaceId":"sitesp_qR4ev","description":"Lab stores a modest selection of materials, with a focus on biobased, biodegradable and recycled materials. Find the price lists below. If you are missing crucial things, please let us know!","breadcrumbs":[{"label":"MATERIALS"}]},{"id":"-Mbb429_VFEzufLqa93_","title":"Reusable waste streams @HKU","pathname":"/lab-pastoe/materials/reusable-waste-hku","siteSpaceId":"sitesp_qR4ev","description":"Coming soon!","breadcrumbs":[{"label":"MATERIALS"}]},{"id":"-Mb0rcZ0u4EIZdZysPNB","title":"Sustainable materials elsewhere","pathname":"/lab-pastoe/materials/sustainable-materials","siteSpaceId":"sitesp_qR4ev","description":"Here we share commercial and non-commercial initiatives we come across, offering or developing promising sustainable materials for art and design practices. Your suggestions are welcome!","breadcrumbs":[{"label":"MATERIALS"}]},{"id":"-MPpXcz9Ngpx5PuLFex3","title":"Making biomaterials","pathname":"/lab-pastoe/tutorials/bioplastics","siteSpaceId":"sitesp_qR4ev","description":"","breadcrumbs":[{"label":"Tutorials & recipes"}]},{"id":"-MPpz8avGD01SRpUIPB2","title":"Gelatine bioplastics","pathname":"/lab-pastoe/tutorials/bioplastics/gelatine-bioplastics","siteSpaceId":"sitesp_qR4ev","description":"Gelatine is made from collagen present in animal parts and comes in jelly, sheet or powder. It is a spiral waste product from the meat industry, being repurposed for uses outside of that industry.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Making biomaterials"}]},{"id":"-MPpeamSUHjln-a1NEfA","title":"Agar bioplastics","pathname":"/lab-pastoe/tutorials/bioplastics/agar-bioplastics","siteSpaceId":"sitesp_qR4ev","description":"Agar is a substance obtained from red algae. Agar bioplastic is made by mixing water, glycerine and agar powder. Together they form a foil-like plastic substitute that is flexible, but not elastic.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Making biomaterials"}]},{"id":"-MQ-BE4B0GZGY2jNMjkK","title":"Starch bioplastics","pathname":"/lab-pastoe/tutorials/bioplastics/starch","siteSpaceId":"sitesp_qR4ev","description":"Making plastics from starch (e.g. potato, corn, tapioca) is popular because of the readily available, cheap materials and clear thin film result, but it can be a slightly tricky process.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Making biomaterials"}]},{"id":"-MRqKtCKwDfq446Es7ig","title":"Alginate bioplastics","pathname":"/lab-pastoe/tutorials/bioplastics/alginate-bioplastic","siteSpaceId":"sitesp_qR4ev","description":"Sodium Alginate is extracted from brown algae. Alginate bioplastics are made by combining sodium alginate, glycerine and water with the curing agent calcium chloride, and are heat/water resistant!","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Making biomaterials"}]},{"id":"-MQ-EzeFgf1eoLmDhIap","title":"Flower & plant paper","pathname":"/lab-pastoe/tutorials/bioplastics/withered-flower-paper","siteSpaceId":"sitesp_qR4ev","description":"Using the pounding or blending method, cellulose and fibres of local or withered plants and flowers and/or paper waste can be transformed into colourful paper-like materials.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Making biomaterials"}]},{"id":"-MQ-F9xIGxH-CcRnM__W","title":"Fruit waste materials","pathname":"/lab-pastoe/tutorials/bioplastics/fruit-waste-leathers","siteSpaceId":"sitesp_qR4ev","description":"The biopolymers in fruit waste can be used to create flexible, translucent, leather-like materials. Below two mango recipies, one including starch. Try variations using overripe pear, fig etcetera.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Making biomaterials"}]},{"id":"-MPzyD3Q_qW2-R81mI0O","title":"Many more resources!","pathname":"/lab-pastoe/tutorials/bioplastics/more-recipes","siteSpaceId":"sitesp_qR4ev","description":"Below we listed some useful resources to further explore research and recipes on bio-based materials. Feel free to share any good additions to this list by sending an email to labpastoe@hku.nl.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Making biomaterials"}]},{"id":"-MQIj2fBhP43ilML-xQK","title":"Growing biomaterials","pathname":"/lab-pastoe/tutorials/growing_materials","siteSpaceId":"sitesp_qR4ev","description":"In this section you will find recipies and links for growing your own kombucha scoby, mycelium cultures and alum crystals in a non-biolab environment, such as Lab Pastoe, or your own home.","breadcrumbs":[{"label":"Tutorials & recipes"}]},{"id":"-MQIirKouS8PsFnXGWFZ","title":"Kombucha materials","pathname":"/lab-pastoe/tutorials/growing_materials/kombucha-materials","siteSpaceId":"sitesp_qR4ev","description":"Growing a cellulose pellicle from a living microbial culture, using the Acetobacter bacteria found in a fermented tea drink called kombucha. Kombucha material can be paper or leather-like and molded.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Growing biomaterials"}]},{"id":"-MQIjE2LhGUwNVq819Kr","title":"Mycelium materials","pathname":"/lab-pastoe/tutorials/growing_materials/mycelium","siteSpaceId":"sitesp_qR4ev","description":"Mycelium is the root-like vegetative network of fungi. Mycelium releases enzymes to be able to digest the organic substrate it grows on, fusing the organic material together like a natural binder.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Growing biomaterials"}]},{"id":"-MQYsbIDhiI_a1YcpniO","title":"Growing crystals","pathname":"/lab-pastoe/tutorials/growing_materials/alum-crystals","siteSpaceId":"sitesp_qR4ev","description":"Crystals have a magical feel although they are the result of a straightforward process by which the atoms or molecules in a solution are highly organized into a structure known as a crystal.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Growing biomaterials"}]},{"id":"-MUVEd20fz3nn6tIPunM","title":"Designing interactivity","pathname":"/lab-pastoe/tutorials/arduino-sensors-and-actuators","siteSpaceId":"sitesp_qR4ev","description":"Sensors and actuators are devices that enable interaction with the physical world in your art projects. The Arduino platform allows you to program this interaction to your liking.","breadcrumbs":[{"label":"Tutorials & recipes"}]},{"id":"-MUVEuLdHVaLQIZ1_SQS","title":"Biodata sensors","pathname":"/lab-pastoe/tutorials/arduino-sensors-and-actuators/biodata-sensors","siteSpaceId":"sitesp_qR4ev","description":"On this page we feature our selection of bio data sensors, such as the pulse sensor, body temperature sensor, muscle sensor and capacitive touch sensor.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Designing interactivity"}]},{"id":"-MU_VqY-s-jRzzYa2yQn","title":"Lilypad sewable electronics","pathname":"/lab-pastoe/tutorials/arduino-sensors-and-actuators/lilypad-sewable-electronics","siteSpaceId":"sitesp_qR4ev","description":"~ coming soon ~","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Designing interactivity"}]},{"id":"-MWxbUSbn2loiirqOGRg","title":"Bare Conductive Touch Board","pathname":"/lab-pastoe/tutorials/arduino-sensors-and-actuators/bare-conductive-touch-board","siteSpaceId":"sitesp_qR4ev","description":"~ coming soon ~","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"Designing interactivity"}]},{"id":"-MWiCneLrUAaqjyIEKuI","title":"RISO printing","pathname":"/lab-pastoe/tutorials/riso-printing","siteSpaceId":"sitesp_qR4ev","description":"~ Coming soon! ~","breadcrumbs":[{"label":"Tutorials & recipes"}]},{"id":"-MSOtqTeIoxPXhfhvGhg","title":"Screen printing","pathname":"/lab-pastoe/tutorials/screenprinting","siteSpaceId":"sitesp_qR4ev","description":"Lab has two Mekanika screen printing sets for max. A3-sized prints on textile, paper, cardboard and thin sheets of wood, metal, acryllic etc. We hold several colors of textile paint and puff paste.","breadcrumbs":[{"label":"Tutorials & recipes"}]},{"id":"-MWLeKeJpH6RnPOZfJGW","title":"3D scanning","pathname":"/lab-pastoe/tutorials/3d-scanning","siteSpaceId":"sitesp_qR4ev","description":"Lab has several options for creating 3D models from your artwork or from other objects that you would like to either 3D print, or bring to life in a virtual reality or augmented reality environment.","breadcrumbs":[{"label":"Tutorials & recipes"}]},{"id":"-MbgxwIWQVsGp35d5xKn","title":"Handheld 3D scanner","pathname":"/lab-pastoe/tutorials/3d-scanning/handheld-3d-scanner","siteSpaceId":"sitesp_qR4ev","description":"The Einscan Pro 2X Plus is a light and easy to use handheld scanner, that creates qualitative models for 3D printing or use in VR/AR applications.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"3D scanning"}]},{"id":"-MWLeZqBkMkXmz4wEtlO","title":"Meshroom photogrammetry","pathname":"/lab-pastoe/tutorials/3d-scanning/meshroom-photogrammetry","siteSpaceId":"sitesp_qR4ev","description":"Meshroom by Activision converts a series of photographs to a textured 3D model that you can use to 3D print or integrate in a VR environment, such as Mozilla Hubs, or AR such as Adobe Aero.","breadcrumbs":[{"label":"Tutorials & recipes"},{"label":"3D scanning"}]}]}