Titanium sponge made by R.A.E. using Ti C/4 + Mg reaction in 1946 Titanium sponge made by R.A.E. 1946
Two cubes of titanium 'Aermetal', as Hip'ped and after heat treatment showing how metal expands as pores grow (1987) Two cubes of titanium 'Aermetal' 1987
Prototype wristwatch movement, component parts in perspex frame, by Charles Frodsham & Co. Limited, East Sussex, England, 2015 Prototype Wristwatch Movement, component parts in perspex frame 2015
The Micra Transcatheter Pacing System is the world’s smallest pacemaker, minimizing the overall size into a device the size of a vitamin pill. As with traditional pacemakers, Micra treats a slow heart rate by delivering electrical signals to stimulate cardiac muscle and restore its rhythm. Unlike most pacemakers that are placed in a patient's chest with electrical leads running to the heart, this device is a leadless pacemaker because it's implanted directly into the heart. This allows Micra to eliminate the major sources of complications with traditional pacemakers, that being the electrical lead and implantable pulse generator. Since this device is completely self-contained within the heart, there is no bump under the skin and no chest scar. [from Medtronic] The Micra Transcatheter Pacing System 2022-03-08
Boxed kit for Reveal™ LINQ Insertable Cardiac Monitor (ICM), also known as an implantable loop recorder, the world’s smallest continuous heart monitoring device, with a sealed, sterile implantation kit containing an additional cardiac monitor, insertion tool and incision tool, made in Tolochenaz, Switerland, 2016, made March 2016, and patient assistant PA96000, made in Malaysia, made March 2016, instruction leaflets and packaging, designed by and made by Medtronic Ltd, 2016 Reveal™ LINQ Insertable Cardiac Monitor and kit 2016
Set of Pillar Rings made from turned titanium, mounted on perspex stand, 1994, made by Wendy Ramshaw, OBE. Set of titanium Pillar Rings 1994
Demonstration model of the Reveal™ LINQ II Insertable Cardiac Monitor (ICM), also known as an implantable loop recorder, designed by and made by Medtronic Ltd, 2020 Demonstration model of the Reveal™ LINQ II Insertable Cardiac Monitor (ICM) 2020
Sample of Mokumegane in sterling silver and titanium which was heated at 800°C to induce interference colours, also using a hot solution of potassium polysulphide. Made by Dr Ian Ferguson at the Royal College of Art, 1990-1996. sample of mokumegane in sterling silver and titanium 1990-1996
Prototype wristwatch movement by Charles Frodsham & Co. Limited, East Sussex, England, 2008 Prototype Wristwatch Movement 2008
Reveal™ DX insertable cardiac monitor (ICM) also known as an implantable loop recorder, model number 9528, a diagnostic tool for unexplained heart rhythms, in sterile packaging, designed by and made by Medtronic Ltd, made November 2007 Reveal™ DX insertable cardiac monitor (ICM) also known as an implantable loop recorder 2007
Titanium and silver bangle, named 'Torus Wave Ti-Ag', made using CAD/CAM, spark erosion, conventional machining and handwork, 1996, made by David Watkins. 'Torus Wave Ti-Ag' Titanium and silver bangle 1996
Boxed Reveal™ XT kit including Reveal™ XT insertable cardiac monitor (ICM) also known as an implantable loop recorder, model number 9529, with sterile packaging, made in the United States, April 2011, Reveal Patient Assistant, model 9539 with small carry case and Carelink™ Monitor 2490F in a carry case, including instructions for use, Medtronic Ltd, 2008-2011 Reveal™ XT kit for an insertable cardiac monitor 2008-2011
Linear friction welded sample composed of titanium (90%), aluminium (6%) and vanadium (4%). Made by TWI, 1996 Linear friction welded sample composed of titanium (90%) 1996
Mokumegane brooch (titanium and copper) by Dr Ian Ferguson, Royal College of Art, 1990-1996. Mokumegane brooch (titanium and copper) by Dr Ian Ferguson 1990-1996
Ophthalmic needle holder, titanium, by Downs Surgical Ltd., England, 1981 Ophthalmic needle holder 1981