Method and systems for determining acceptance criteria for identification of occluding particles in a lumen of a device are provided. The methods and systems can be used in methods of identifying an occluded device in an inspection method.

Method for carrying out rheologic measurements of a drilling mud, comprising: providing a first toroidal conduit (10); inserting into said first toroidal conduit (10) a drilling mud, comprising drilling debris; determining conditions to be simulated for said mud, said conditions to be simulated comprising a path length and/or a flow time to be simulated for said mud; determining, as a function of said conditions to be simulated, operating conditions to be applied to said mud, said operating conditions comprising a number of laps around said first toroidal conduit (10) and/or a flow time in said first toroidal conduit (10); regulating the temperature inside said first toroidal conduit (10); regulating the pressure inside said first toroidal conduit (10); providing a displacement device (20) comprising a first projectile (21), wherein said first projectile (21) fills substantially entirely a cross-section of said first toroidal conduit (10); moving, by means of said first projectile (21), said mud in the first annular conduit (10) according to said operating conditions. The method further comprises: a first operating step, wherein a force is determined, which is applied by said displacement device (20) to move said mud in the first toroidal conduit (10); a second operating step, wherein a rheologic parameter of said mud is determined as a function of said force.

A method of measuring the viscosity of a resin in a bottom-up additive manufacturing apparatus, includes the steps of: (a) providing an additive manufacturing apparatus including a build platform and a light transmissive window, said build platform and said window defining a build region there between, with said window carrying a resin; (b) advancing said build platform and said window towards one another until said build platform contacts said resin; (c) detecting the force exerted on said build platform by said resin; and (d) generating in a processor a viscosity measure of said resin from said detected force.

A method of measuring the viscosity of a resin in a bottom-up additive manufacturing apparatus, includes the steps of: (a) providing an additive manufacturing apparatus including a build platform and a light transmissive window, said build platform and said window defining a build region there between, with said window carrying a resin; (b) advancing said build platform and said window towards one another until said build platform contacts said resin; (c) detecting the force exerted on said build platform by said resin; and (d) generating in a processor a viscosity measure of said resin from said detected force.

Rheometer systems and related methods are provided. In accordance with an example, a rheometer system includes a rheometer and a platform supporting the rheometer and movable between a lowered position and a raised position. The rheometer system includes a fluid receptacle defining an opening. The rheometer system includes a receptacle housing having a housing side and adapted to receive the fluid receptacle. The opening of the fluid receptacle facing the rheometer when the fluid receptacle is received by the receptacle housing. The rheometer system includes a thermoelectric device coupled adjacent to the housing side. The rheometer system includes a controller in communication with the thermoelectric device and adapted to control a temperature of the thermoelectric device.

A separation system and method, of which the system includes a separation device comprising a mixed fluid inlet, a first outlet, and a second outlet, a tank coupled to the second outlet and configured to receive a solid from the separation device via the second outlet, and a solids-level sensor extending through the tank and positioned at an elevation above a bottom of the tank. The solids-level sensor is configured to detect a viscosity of a material within the tank at the elevation.

A separation system and method, of which the system includes a separation device comprising a mixed fluid inlet, a first outlet, and a second outlet, a tank coupled to the second outlet and configured to receive a solid from the separation device via the second outlet, and a solids-level sensor extending through the tank and positioned at an elevation above a bottom of the tank. The solids-level sensor is configured to detect a viscosity of a material within the tank at the elevation.

A method of measuring the viscosity of a resin in a bottom-up additive manufacturing apparatus, includes the steps of: (a) providing an additive manufacturing apparatus including a build platform and a light transmissive window, said build platform and said window defining a build region there between, with said window carrying a resin; (b) advancing said build platform and said window towards one another until said build platform contacts said resin; (c) detecting the force exerted on said build platform by said resin; and (d) generating in a processor a viscosity measure of said resin from said detected force.

A method of measuring the viscosity of a resin in a bottom-up additive manufacturing apparatus, includes the steps of: (a) providing an additive manufacturing apparatus including a build platform and a light transmissive window, said build platform and said window defining a build region there between, with said window carrying a resin; (b) advancing said build platform and said window towards one another until said build platform contacts said resin; (c) detecting the force exerted on said build platform by said resin; and (d) generating in a processor a viscosity measure of said resin from said detected force.

The present invention relates to a device for determining the correct viscosity of a liquid, comprising member which either remains in or assumes a substantially upright or pre-determined position when placed in a fluid having at least the desired or specified viscosity and is unable to remain in a substantially upright or pre-determined position if a fluid has less than the desired or specified viscosity. The invention also relates to methods and uses of particular devices and is particularly suited to assisting patients suffering from dysphasia (or similar conditions) and who wish to thicken liquids to enable them to allow safe swallowing without aspiration to take place.