Abstract: The present invention discloses a polyester, a preparation method therefor and use thereof. The polyester includes repeating units derived from the following components: a first component A, based on the total molar weight of the first component A, including: a1) 81-100 mol % of succinic acid, or an ester derivative thereof or an anhydride derivative thereof, and a2) 0-19 mol % of a dicarboxylic acid other than succinic acid, or an ester derivative thereof or an anhydride derivative thereof; a second component B: 1,4-butanediol; and a third component C: a dimer(1,4-butanediol); based on the total molar weight of the first component A, the molar content of the repeating unit —CH2CH2CH2CH2—O— in the third component C is 0.05-3.0 mol %. In the present invention, the molar content of the repeating unit —CH2CH2CH2CH2—O— in dimer(1,4-butanediol) is controlled to 0.05-3.0 mol %, and thus, the resin color of the polyester can be effectively improved.

Abstract: Provided are a display substrate and a display device. The display substrate includes a driving transistor and a storage capacitor, the storage capacitor includes a first electrode plate and a second electrode plate, the second electrode plate is arranged in a same layer as the channel of the driving transistor, the second electrode plate is closer to the base substrate than the first electrode plate, an orthographic projection of the second electrode plate on the base substrate overlaps with an orthographic projection of the pixel opening on the base substrate, the display substrate satisfies a following relationship: a value range of (W*L+S2)*M1/M2 is [0.014, 0.133], and a value range of S2/(W*L) is [2.82, 28.

Abstract: Disclosed are a semi-aromatic polyester, and a preparation method therefor and a use thereof. In the present invention, on the basis of the total molar amount of diacid, the molar content of a repeating unit —CH2CH2CH2CH2—O— in dimer(1,4-butanediol) is controlled to be 0.05-0.35 mol %, which can effectively improve the resin color of the semi-aromatic polyester.

Abstract: The present invention discloses a semi-aromatic polyester, and a preparation method therefor and an application thereof. The semi-aromatic polyester has a specific scope of double bond content. Compared with the existing semi-aromatic polyester, the semi-aromatic polyester of the present invention has better melting heat retention stability and fine color.

Abstract: The disclosure provides a method for growing GZO (ZnO:Ga) single crystals and relates to the technical field of crystal growth. The method may include the following steps: firstly, preparing compact, uniform and single-phase polycrystalline rods; secondly, optimizing the components and the proportions of flux; finally, optimizing the process parameters of travelling solvent floating zone crystal growth method for GZO, such as growth power, growth rate and rotation speed, etc. GZO crystals grown by this disclosure are high in crystalline quality, consistent in growth direction and excellent in electrical properties.

Abstract: The disclosure provides a method for growing GZO (ZnO:Ga) single crystals and relates to the technical field of crystal growth. The method may include the following steps: firstly, preparing compact, uniform and single-phase polycrystalline rods; secondly, optimizing the components and the proportions of flux; finally, optimizing the process parameters of travelling solvent floating zone crystal growth method for GZO, such as growth power, growth rate and rotation speed, etc. GZO crystals grown by this disclosure are high in crystalline quality, consistent in growth direction and excellent in electrical properties.

Abstract: A glass lampshade comprising a fusion body of crystal grain glass, an upper crystal glass plate, a lower crystal glass plate, and a curing gel layer. The upper crystal glass plate is attached to the lower crystal plate via the curing gel layer. The fusion body of crystal grain glass is attached to the upper crystal glass plate. A method of producing the glass lampshade.

Abstract: A hot-melt glass pillar lamp and a multi-channel heat dissipation method thereof; the pillar lamp comprises a base, a hollow steel frame which is mounted on the middle of the base, several sections of pillar-shaped hot-melt glass lamp which surround the steel frame and are sequentially arranged on the base from down to up in an overlapping manner, and a lamp cover with air outlets, wherein, each section of the pillar-shaped hot-melt glass lamp comprises a fixing framework which is composed of a plurality of supporting bars and a supporting board; each surface of the fixing framework is separately provided with a hot-melt glass lamp plate; an LED lamp plate is arranged at a certain distance from the inner side of each hot-melt glass lamp plate, and on the corresponding surface of the steel frame.

Abstract: A multiple-layered hot-melt glass lampshade having a crystal-interwoven structure with a first hot-melt glass layer, a second hot-melt glass layer, a third hot-melt glass layer, a first crystal glass layer, a second crystal glass layer, and a curing gel layer. The order of arrangement is, from outside to inside, the first hot-melt glass layer, the second hot-melt glass layer, the third hot-melt glass layer, the first crystal glass layer, the curing gel layer, and the second crystal glass layer. The first hot-melt glass layer, the second hot-melt glass layer, and the third hot-melt glass layer are partially attached to each other. The third hot-melt glass layer is partially attached to the first crystal glass layer.

Abstract: A hot-melt glass pillar lamp and a multi-channel heat dissipation method thereof; the pillar lamp comprises a base, a hollow steel frame which is mounted on the middle of the base, several sections of pillar-shaped hot-melt glass lamp which surround the steel frame and are sequentially arranged on the base from down to up in an overlapping manner, and a lamp cover with air outlets, wherein, each section of the pillar-shaped hot-melt glass lamp comprises a fixing framework which is composed of a plurality of supporting bars and a supporting board; each surface of the fixing framework is separately provided with a hot-melt glass lamp plate; an LED lamp plate is arranged at a certain distance from the inner side of each hot-melt glass lamp plate, and on the corresponding surface of the steel frame.

Abstract: A glass lampshade comprising a fusion body of crystal grain glass, an upper crystal glass plate, a lower crystal glass plate, and a curing gel layer. The upper crystal glass plate is attached to the lower crystal plate via the curing gel layer. The fusion body of crystal grain glass is attached to the upper crystal glass plate. A method of producing the glass lampshade.

Abstract: A multiple-layered hot-melt glass lampshade having a crystal-interwoven structure with a first hot-melt glass layer, a second hot-melt glass layer, a third hot-melt glass layer, a first crystal glass layer, a second crystal glass layer, and a curing gel layer. The order of arrangement is, from outside to inside, the first hot-melt glass layer, the second hot-melt glass layer, the third hot-melt glass layer, the first crystal glass layer, the curing gel layer, and the second crystal glass layer. The first hot-melt glass layer, the second hot-melt glass layer, and the third hot-melt glass layer are partially attached to each other. The third hot-melt glass layer is partially attached to the first crystal glass layer.