process, that we call printing, that s just a layman s explanation of what we actually do. we use a plasma vapour deposition process, a very physics term for atom by atom building up an ultrasound sensor. and then we use some other additive manufacturing techniques we have borrowed from the semiconductor industry to build up a sensor, which we then put in an embodiment which is 3d printed. so there is three different steps of printing, as we call it. this is the novosound kelpie, it s a 64 element linear array, and typically it is used for inspection, corrosion mapping. because it is so flexible it can be wrapped around pipes and conform to complex geometry. so it can look inside of objects using ultrasound. what sort of things are you looking for in a pipe? typically we will be looking for corrosion or cracking, any defects. can i have a shot? yeah, go for it. getting from this very industrial use to something we can interact with every day is a big focus for the company. we have alre
which we then put in an embodiment which is 3d printed. so there is a three different steps of printing, as we call it. this is the novosound kelpie, it s a 64 element linear array, and typically it is used for inspection, corrosion mapping. because it is so flexible it can be wrapped around pipes and conform to complex geometry. so it can look inside of objects using ultrasound. what sort of things are you looking for in a pipe? typically we will be looking for corrosion or cracking, any defects. can i have a shot? yeah, go for it. getting from this very industrial use to something we can interact with every day is a big focus for the company. we have already proven the ultrasound technology in the industrial sector and aviation, oil and gas. but most people know ultrasound from the hospital or medical imaging, so what we really want to do is be able to take medical imaging out of the hospital and put it into the homes for everyone. a lot of the wearables that are on the market at the
traditional ultrasound manufacturers would use machining to build an ultrasound probe by machining or breaking away material to make a probe. we do an additive manufacturing process, that we call printing, that s just a layman s explanation of what we actually do. we use a plasma vapour deposition process, a very physics term for atom by atom building up an ultrasound sensor. and then we use some other additive manufacturing techniques we have borrowed from the semiconductor industry to build up a sensor, which we then put in an embodiment which is 3d printed. so there is a three different steps of printing, as we call it. this is the novosound kelpie, it s a 64 element linear array, and typically it is used for inspection, corrosion mapping. because it is so flexible it can be wrapped around pipes and conform to complex geometry. so it can look inside of objects using ultrasound. what sort of things are you looking for in a pipe? typically we will be looking for corrosion or cracking,
we do and additive manufacturing process, which we call printing, we user plasma paper deposition process, to look up an ultrasound centre. and then we use other additive manufacturing techniques we have borrowed from the semiconductor industry to build up semiconductor industry to build up a sensor, but is so printed. then there is a three different steps of printing as we call it. , , ., , ., it. this is a six filament hnear it. this is a six filament linear array it. this is a six filament linear array and - it. this is a six filament| linear array and typically it. this is a six filament i linear array and typically it is used linear array and typically it is used for inspection, corrosion mapping, because it is so corrosion mapping, because it is so flexible it can be wrapped around pipes and conform to complex geometry. we can look conform to complex geometry. we can look inside of objects using can look inside of objects using ultrasound. can look inside of ob ects usin
machining to build an ultrasound probe by machining or breaking away material to make a probe. we do an additive manufacturing process, that we call printing, that s just a layman s explanation of what we actually do. we use a plasma vapour deposition process, a very physics term for atom by atom building up an ultrasound sensor. and then we use some other additive manufacturing techniques we have borrowed from the semiconductor industry to build up a sensor, which we then put in an embodiment which is 3d printed. so there is a three different steps of printing, as we call it. this is the novosound kelpie, it s a 64 element linear array, and typically it is used for inspection, corrosion mapping. because it is so flexible it can be wrapped around pipes and conform to complex geometry. so it can look inside of objects using ultrasound. what sort of things are you looking for in a pipe? typically we will be looking for corrosion or cracking, any defects. can i have a shot? yeah, go for i