Abstract: Disclosed herein are testing apparatuses for testing stresses in substrates. The testing apparatus includes a base, a first plate coupled to the base, the first plate being movable relative to the base along a first axis, a second plate coupled to the base, the second plate being movable relative to the base and relative to the first plate along a second axis that is perpendicular to the first axis, a first actuator operable to move the first plate along the first axis towards or away from the second plate, a second actuator operable to move the second plate along the second axis relative to the first plate, and a controller operatively connected to the first actuator and the second actuator operable to control movement of the first plate and the second plate.

Abstract: A system of the present disclosure has a host testing device having a first wireless transceiver and having host testing device logic configured to transmit a test command via the first wireless transceiver. Additionally, the system has a remote testing device coupled to a system component. The remote testing device has a second wireless transceiver and remote testing device logic that receives the test command from the host testing device and executes the test command on the system component.

Abstract: A system of the present disclosure has a host testing device having a first wireless transceiver and having host testing device logic configured to transmit a test command via the first wireless transceiver. Additionally, the system has a remote testing device coupled to a system component. The remote testing device has a second wireless transceiver and remote testing device logic that receives the test command from the host testing device and executes the test command on the system component.

Abstract: A system of the present disclosure has a host testing device having a first wireless transceiver and having host testing device logic configured to transmit a test command via the first wireless transceiver. Additionally, the system has a remote testing device coupled to a system component. The remote testing device has a second wireless transceiver and remote testing device logic that receives the test command from the host testing device and executes the test command on the system component.

Abstract: An apparatus for testing a sheet of brittle material is disclosed. The apparatus can include a plurality of assemblies configured for selectively applying a 3-point bending load on an edge of the sheet of material in a test region of the apparatus, a detection mechanism that optically measures strain in the sheet of material in the region, and a processor that determines the stress in the sheet based on the measured strain by calculating the stress that would be required to produce the measured strain in the sheet of material.

Abstract: An apparatus for testing the edge strength of a discrete sheet of material such as glass where the sheet has an irregular free-form shaped outline is disclosed. The apparatus can include a plurality of assemblies configured for selectively applying a 3-point bending load on an edge of the sheet of material in a test region of the apparatus, a detection mechanism that optically measures strain in the sheet of material in the region, and a processor that determines the stress in the sheet based on the measured strain by calculating the stress that would be required to produce the measured strain in the sheet of material.

Abstract: A system of the present disclosure has a host testing device having a first wireless transceiver and having host testing device logic configured to transmit a test command via the first wireless transceiver. Additionally, the system has a remote testing device coupled to a system component. The remote testing device has a second wireless transceiver and remote testing device logic that receives the test command from the host testing device and executes the test command on the system component.

Abstract: A glass pharmaceutical package having a glass composition of 68.00 mol % to 81.00 mol % SiO2, from 4.00 mol % to 11.00 mol % Al2O3, from 0.10 mol % to 16.00 mol % Li2O, from 0.10 mol % to 12.00 mol % Na2O, from 0.00 mol % to 5.00 mol % K2O, from 0.10 mol % to 8.00 mol % MgO, from 0.10 mol % to 5.00 mol % CaO, from 0.00 mol % to 0.20 mol % fining agent. The glass pharmaceutical package is delamination resistant, and has class 1 or class 2 chemical durability in acid, base, and water. The glass pharmaceutical package may have a surface compressive stress of at least 350 MPa.

Abstract: A system of the present disclosure has a host testing device having a first wireless transceiver and having host testing device logic configured to transmit a test command via the first wireless transceiver. Additionally, the system has a remote testing device coupled to a system component. The remote testing device has a second wireless transceiver and remote testing device logic that receives the test command from the host testing device and executes the test command on the system component.

Abstract: A coated glass article and methods for producing the same are provided herein. The coated glass article includes a glass body having a first surface and a second surface opposite the first surface, wherein the first surface is an exterior surface of the glass body, and a damage-resistant coating formed by atomic layer deposition, the damage-resistant coating being disposed on at least a portion of the first surface of the glass body.

Abstract: A system of the present disclosure has a host testing device having a first wireless transceiver and having host testing device logic configured to transmit a test command via the first wireless transceiver. Additionally, the system has a remote testing device coupled to a system component. The remote testing device has a second wireless transceiver and remote testing device logic that receives the test command from the host testing device and executes the test command on the system component.

Abstract: An apparatus for testing a sheet of brittle material is disclosed. The apparatus can include a plurality of assemblies configured for selectively applying a 3-point bending load on an edge of the sheet of material in a test region of the apparatus, a detection mechanism that optically measures strain in the sheet of material in the region, and a processor that determines the stress in the sheet based on the measured strain by calculating the stress that would be required to produce the measured strain in the sheet of material.

Abstract: An apparatus for testing the edge strength of a discrete sheet of material such as glass where the sheet has an irregular free-form shaped outline is disclosed. The apparatus can include a plurality of assemblies configured for selectively applying a 3-point bending load on an edge of the sheet of material in a test region of the apparatus, a detection mechanism that optically measures strain in the sheet of material in the region, and a processor that determines the stress in the sheet based on the measured strain by calculating the stress that would be required to produce the measured strain in the sheet of material.

Abstract: A system of the present disclosure has a host testing device having a first wireless transceiver and having host testing device logic configured to transmit a test command via the first wireless transceiver. Additionally, the system has a remote testing device coupled to a system component. The remote testing device has a second wireless transceiver and remote testing device logic that receives the test command from the host testing device and executes the test command on the system component.

Abstract: A glass pharmaceutical package having a glass composition of 68.00 mol % to 81.00 mol % SiO2, from 4.00 mol % to 11.00 mol % Al2O3, from 0.10 mol % to 16.00 mol % Li2O, from 0.10 mol % to 12.00 mol % Na2O, from 0.00 mol % to 5.00 mol % K2O, from 0.10 mol % to 8.00 mol % MgO, from 0.10 mol % to 5.00 mol % CaO, from 0.00 mol % to 0.20 mol % fining agent. The glass pharmaceutical package is delamination resistant, and has class 1 or class 2 chemical durability in acid, base, and water. The glass pharmaceutical package may have a surface compressive stress of at least 350 MPa.

Abstract: A coated glass article and methods for producing the same are provided herein. The coated glass article includes a glass body having a first surface and a second surface opposite the first surface, wherein the first surface is an exterior surface of the glass body, and a damage-resistant coating formed by atomic layer deposition, the damage-resistant coating being disposed on at least a portion of the first surface of the glass body.

Abstract: A glass pharmaceutical package having a glass composition of 68.00 mol % to 81.00 mol % SiO2, from 4.00 mol % to 11.00 mol % Al2O3, from 0.10 mol % to 16.00 mol % Li2O, from 0.10 mol % to 12.00 mol % Na2O, from 0.00 mol % to 5.00 mol % K2O, from 0.10 mol % to 8.00 mol % MgO, from 0.10 mol % to 5.00 mol % CaO, from 0.00 mol % to 0.20 mol % fining agent. The glass pharmaceutical package is delamination resistant, and has class 1 or class 2 chemical durability in acid, base, and water. The glass pharmaceutical package may be substantially free of B2O3, SrO, BaO, and ZrO2.

Abstract: A glass pharmaceutical package having a glass composition of 68.00 mol % to 81.00 mol % SiO2, from 4.00 mol % to 11.00 mol % Al2O3, from 0.10 mol % to 16.00 mol % Li2O, from 0.10 mol % to 12.00 mol % Na2O, from 0.00 mol % to 5.00 mol % K2O, from 0.10 mol % to 8.00 mol % MgO, from 0.10 mol % to 5.00 mol % CaO, from 0.00 mol % to 0.20 mol % fining agent. The glass pharmaceutical package is delamination resistant, and has class 1 or class 2 chemical durability in acid, base, and water. The glass pharmaceutical package may be substantially free of B2O3, SrO, BaO, and ZrO2.

Abstract: A system of the present disclosure has a host testing device having a first wireless transceiver and having host testing device logic configured to transmit a test command via the first wireless transceiver. Additionally, the system has a remote testing device coupled to a system component. The remote testing device has a second wireless transceiver and remote testing device logic that receives the test command from the host testing device and executes the test command on the system component.

Abstract: Methods and assemblies related to frame or bezel packaging of a sealed glass assembly, such as a fit-sealed OLED device, such as an OLED display panel. The frame or bezel packaging may have one or more of (a) rounded or chamfered corners, (a) a cover, (b) a reinforced lead edge, (c) openings or cutouts in the back panel to conserve material and lighten the bezel, and (d) a shock absorbent intermediate layer of low modulus of elasticity material applied between the sealed glass assembly and the back and/or sides of the frame or bezel. The frame or bezel design may include a gap between the sealed glass assembly and the back panel of the bezel. The gap may be filled at least in part with low modulus of elasticity backing material.