Abstract: An adaptive display method and apparatus for a virtual scene, an electronic device, a computer-readable storage medium, and a computer program product are provided, and the method includes: displaying a virtual scene and a plurality of buttons with different sizes; obtaining, in response to touch operations on the plurality of buttons with different sizes, touch areas corresponding to the touch operations; and updating and displaying the virtual scene, sizes of buttons included in the updated virtual scene being adapted to the touch areas corresponding to the touch operations.

Abstract: The present disclosure discloses a recycling method of a ternary material micropowder, and use thereof. The recycling method includes: washing the ternary material micropowder with water, and adding a coating agent and an promotor; subjecting a resulting mixture to a reaction under heating and pressurization, and filtering to obtain a coated base material; subjecting the coated base material to sintering, adding an extracting agent to a resulting sintered material, and stirring and filtering to obtain a filter residue; and subjecting the filter residue to drying, sieving, and iron removal to obtain a ternary cathode material. In the present disclosure, the coating agent and the promotor are added to achieve high-pressure hydrothermal coating for the micropowder. The coating agent can optimize the storage performance of the material and increase the life of the material.

Abstract: Embodiments of this disclosure disclose a virtual item control method and apparatus, a terminal, and a non-transitory storage medium, and belong to the field of computer technologies. The method includes: displaying a plurality of item icons after a press operation on a throw button is detected; controlling, in response to the press operation moving to the target item icon and a duration reaches a target duration, a virtual object to hold a target virtual item corresponding to the target item icon; controlling, in response to a movement of the press operation, the virtual object to aim at a target position; and controlling, in response to a release of the press operation, the virtual object to throw the target virtual item to the target position.

Abstract: Disclosed is a linear motor, including a mover and a stator which cooperate with each other. The mover includes mover iron cores arranged at intervals in a movement direction of the mover, and the stator includes permanent magnets arranged at intervals in the movement direction. Each of the mover iron cores includes an iron core yoke portion and an iron core tooth unit joined to each other. The iron core tooth unit defines an opening, and each of the permanent magnets is located at least partially within the opening.

Abstract: A method for measuring drop time of a control rod cluster integrated with a rod position measurement device is provided, wherein the method is used to measure the drop time of each control rod cluster, and includes: Si, monitoring a voltage Ua of coils in Group A to capture a rod cluster drop signal; S2, searching a point (tmax, Vmax) with a maximum drop speed or with a local maximum drop speed; S3, retroactively calculating, from tmax, an end of a time period T4 when the control rod cluster starts to drop; S4, retroactively searching, from a minimum value point of a drop reference signal DROPref, a start of the time period T4 when the drop reference signal DROPref drops from a maximum value to 33% thereof; and S5, determining, from tmax forward, a time point t6 when a drop speed of the control rod cluster is lower than 0.

Abstract: The disclosure discloses a precursor with a transformed crystal form and a preparation method thereof. The preparation method includes: (1) heating a carbonate solution, a cobalt salt to allow a reaction, and spray adding a carbonate solution to allow a reaction to obtain a cobalt carbonate slurry; (2) allowing the slurry to stand, spray adding a cobalt salt and a carbonate solution, and spray adding a cobalt salt using a single spray head at a flow rate of 1 m3/h to 3 m3/h and a carbonate solution using no less than three spray heads each at a flow rate of 0.2 m3/h to 5 m3/h to obtain cobalt carbonate with a transformed crystal form; and (3) further spray adding a cobalt salt and a carbonate solution to the cobalt carbonate with a transformed crystal form, heating to allow a constant-temperature reaction, and washing and calcining a product.

Abstract: The invention belongs to the technical field of lithium ion battery materials, and discloses a fast ionic conductor coated lithium-transition metal oxide material having a chemical formula of (1?x)Li1+a (Ni(1?m?n)ConMnm) 1?bMbO2·xLicAldTieM?fM?g (PO4)3 and a preparation method thereof. The fast ionic conductor coated lithium-transition metal oxide material of the present invention has lower impedance, excellent cycle performance and safety performance under high voltage, especially when the charging voltage is greater than 4.62V, 4.65V, or higher. The Lithium-transition metal oxide can be obtained by a primary calcination, and the final product of lithium-transition metal oxide material coated with fast ionic conductor can be obtained by a secondary calcination.

Abstract: The invention discloses a mixing process for preparing a high nickel cathode material and its use. The mixing process is to add a precursor and a lithium source to a mixing device for mixing to obtain a mixture. After the mixture is uniformly mixed, the mixture is mixed. While the material equipment continues to operate, spray the liquid into the mixture. After the liquid spray is completed, the material is discharged, and the obtained mixture is put into a sagger for sintering. The liquid is pure water, ethanol, nitrogen methyl pyrrolidone, and additive solution. Or one or more of additive dispersions. The spray mixing process of the present invention can make the mixture more uniform, and because of the presence of a proper amount of mist droplets, the surface of the lithium source is slightly soluble in water and can adsorb the precursor.

Abstract: Disclosed is a linear motor, including a mover and a stator which cooperate with each other. The mover includes mover iron cores arranged at intervals in a movement direction of the mover, and the stator includes permanent magnets arranged at intervals in the movement direction. Each of the mover iron cores includes an iron core yoke portion and an iron core tooth unit joined to each other. The iron core tooth unit defines an opening, and each of the permanent magnets is located at least partially within the opening.

Abstract: A method for adjusting a voltage of a supercapacitor is disclosed, the method, which is used to retard aging of the supercapacitor and extend a service life of the supercapacitor, includes: acquiring information that carries a system service volume; configuring a size of an available capacity value of the Cache according to the information; and adjusting a working voltage of the supercapacitor according to the configured size of the available capacity value of the Cache.

Abstract: A method for adjusting a voltage of a supercapacitor is disclosed, the method, which is used to retard aging of the supercapacitor and extend a service life of the supercapacitor, includes: acquiring information that carries a system service volume; configuring a size of an available capacity value of the Cache according to the information; and adjusting a working voltage of the supercapacitor according to the configured size of the available capacity value of the Cache.