公开(公告)号：US20230227357A1

公开(公告)日：2023-07-20

申请号：US17939162

申请日：2022-09-07

Applicant: Xi'an University of Technology

Inventor： Yanlong LI ,  Yunhe LIU ,  Yang LI ,  Heng ZHOU ,  Wengang LI

IPC: C04B20/12 ,  C04B20/02 ,  C04B20/10 ,  C04B26/26

CPC classification number: C04B20/123 ,  C04B20/023 ,  C04B20/1051 ,  C04B20/1055 ,  C04B26/26

Abstract: The preparation device includes an upper main conveyor belt, and an aggregate box, a first silane emulsion container and a first paper mill sludge container sequentially arranged above the upper main conveyor belt in a conveying direction. A lower auxiliary conveyor belt is arranged below the upper main conveyor belt, and a second paper mill sludge container and a second silane emulsion container are sequentially arranged between the upper main conveyor belt and the lower auxiliary conveyor belt in a conveying direction of the lower auxiliary conveyor belt. A trolley is arranged at the conveying tail end of the lower auxiliary conveyor belt, a gravity sensing device is arranged below the trolley, a mixer is arranged beside the trolley, and a heater is arranged at the bottom of the mixer.

公开(公告)号：US20230102365A1

公开(公告)日：2023-03-30

申请号：US17750027

申请日：2022-05-20

Applicant: XI'AN UNIVERSITY OF TECHNOLOGY

Inventor： Quan QUAN ,  Shaoze GAO ,  Simin YANG ,  Rong FAN

IPC: A01K63/00 ,  G06F30/10 ,  G06F30/20

Abstract: The present invention discloses a determination method for a preferred habitat of fish and a terminal device, wherein the method comprises: acquiring parameter information of a water environment in which target fish is located, and establishing a 3D water environment model by utilizing the parameter information of the water environment; determining an ecological function of the target fish and constructing a bio-simulation model on the 3D water environment model by combining the ecological function; acquiring a movement locus of the target fish in the bio-simulation model and determining potential habitats of the target fish according to the movement locus; and determining the preferred habitat of the target fish from the potential habitats by utilizing a preference learning model based on a density accumulation method.

公开(公告)号：US20210336821A1

公开(公告)日：2021-10-28

申请号：US16476879

申请日：2019-04-28

Applicant: Xi'an University of Technology

Inventor： Haipeng REN ,  Junliang YAO ,  Chao BAI

IPC: H04L27/00

Abstract: a chaotic shape-forming and corresponding matched filter-based wireless communication method is provided, and the method includes that: 1) data to be transmitted is prepared; 2) chaotic shape-forming filter is performed on a digital symbol to be transmitted to generate a baseband signal; 3) the baseband signal is transmitted and transferred by use of a radio frequency component and transmitting antenna of a conventional wireless communication system; 4) a wireless signal is received by use of a conventional receiving antenna, and down-carrier process is performed on the received signal to obtain a received baseband signal; 5) matched filter is performed on the received baseband signal; 6) wireless channel estimation and multipath interference cancellation judgment threshold calculation are performed; and 7) sampling judgment is performed on an output signal of matched filter, symbol sampling is performed on the output signal of the matched filter in Step 5), and the sampled signal is judged by use of a judgment threshold calculated in Step 6) to obtain a decoded output signal.

公开(公告)号：US20210326408A1

公开(公告)日：2021-10-21

申请号：US17361327

申请日：2021-06-29

Applicant: Xi'an University of Technology

Inventor： Jungang Luo ,  Dandan Liu

IPC: G06F17/18 ,  E02B1/00 ,  G01C13/00

Abstract: An ecological flow determination method for considering a lifting amount a belongs to a technical field of environmental engineering and includes the following steps: collecting, by a collecting device, data needed to calculate an ecological flow; determining, by a calculating device, an ecological base flow; selecting an upper limit and a lower limit of the ecological base flow so as to determine a range of the ecological base flow; verifying the lower limit of the ecological base flow; calculating water demands of landscape wetland, sediment discharge and dilution self purification of three service objects; comparing the water demands of the three service objects so as to determine the lifting amount, and finding out a minimum value and a maximum value to determine a lower limit and an upper limit of the lifting amount in the range; combining the ecological base flow and the lifting amount to determine the ecological flow.

公开(公告)号：US11085097B2

公开(公告)日：2021-08-10

申请号：US16327884

申请日：2017-08-31

Applicant: Xi'an University of Technology

Inventor： Yang Xu ,  Guojun Yan ,  Baojian Liu

IPC: C21D9/40 ,  C21D1/32 ,  C22C37/06 ,  C22C37/10 ,  C22C37/08 ,  F16C33/66 ,  B22D11/14 ,  C21D1/20 ,  C22C33/08 ,  C22C37/04

Abstract: A self-lubricating rolling bearing is provided. The chemical compositions in the inner rings and the outer rings of bearing are 3.4-3.7% C, 2.7-2.9% Si, 0.3-0.5% Mn, 0.3-0.5% Cr, ≤0.05% S, ≤0.05% P, 0.03-0.045% Residual Mg, and the remainder Fe. The total percent of the chemical compositions is 100%. The material for the inner and outer rings of the rolling bearing introduced in the invention is austempered ductile iron (ADI). In the microstructure of ADI, the diameter of the graphite nodules is less than 0.02 mm, the number of graphite spheres per square millimeter is more than 400, and the microstructure of the metal matrix in the ADI can be showed clearly only when it is observed on the microscope with a magnification more than 500. Eventually, the self-lubricating rolling bearings are made from the ADI.

公开(公告)号：US10947118B2

公开(公告)日：2021-03-16

申请号：US15957011

申请日：2018-04-19

Applicant: Xi'an University of Technology

Inventor： Changqing Fang ,  Xing Zhou ,  Rong Yang ,  Shaofei Pan ,  Wanqing Lei ,  Yan Li

IPC: C01B32/16

Abstract: The present invention relates to carbon nanotubes and a preparation method thereof by using PET. The carbon nanotubes of the present invention are prepared by processes of alcoholysis of PET materials, processes of washing, crushing and calcining unreacted intermediates and so on. By the preparation method of the present invention, multi-walled carbon nanotubes prepared by using waste PET have a good conductivity, and are a structure of top-down array with low aspect ratio. The method of the present invention is not only easy to implement, but also does not need a catalyst, and turns the waste PET into treasure, which solves the problem of environmental pollution caused by the increasingly serious waste PET. FIG. 9.

公开(公告)号：US12280410B1

公开(公告)日：2025-04-22

申请号：US18945585

申请日：2024-11-13

Applicant: XI'AN HEAVY EQUIPMENT & TECHNOLOGY CO., LTD. ,  Xi'an University of Technology

Inventor： Xiaohui Zhao ,  Yali Wu ,  Dahao Wang ,  Bo Yang ,  Feng Ding ,  Jianfeng Chen ,  Zuohua Chai

IPC: B21B37/16 ,  B21B3/00

Abstract: An optimization method for bending rebound quantity of aluminum roll forming includes the following steps: S1, analyzing the process of aluminum roll forming, and determining decision variables of aluminum rebound quantity and thickness reduction; S2, constructing the optimization model of the bending rebound quantity of aluminum roll forming based on the multi-objective optimization algorithm and clarifying constraints in the process of aluminum roll forming; S3, based on characteristics of the model in S2, proposing the corresponding algorithm to optimize the aluminum rebound quantity and thickness reduction; S4, updating the decision variables that affect the aluminum rebound quantity and thickness reduction; S5, judging the iteration stop condition, and outputting the scheme that improves the bending rebound quantity of roll forming aluminum. The optimization method solves the problem of large bending rebound quantity in roll forming technology, improves the accuracy of roll forming process and production efficiency, and enhances production flexibility.

公开(公告)号：US12210584B2

公开(公告)日：2025-01-28

申请号：US17361327

申请日：2021-06-29

Applicant: Xi'an University of Technology

Inventor： Jungang Luo ,  Dandan Liu

IPC: G06F17/18 ,  E02B1/00 ,  G01C13/00

Abstract: An ecological flow determination method for considering a lifting amount a belongs to a technical field of environmental engineering and includes the following steps: collecting, by a collecting device, data needed to calculate an ecological flow; determining, by a calculating device, an ecological base flow; selecting an upper limit and a lower limit of the ecological base flow so as to determine a range of the ecological base flow; verifying the lower limit of the ecological base flow; calculating water demands of landscape wetland, sediment discharge and dilution self purification of three service objects; comparing the water demands of the three service objects so as to determine the lifting amount, and finding out a minimum value and a maximum value to determine a lower limit and an upper limit of the lifting amount in the range; combining the ecological base flow and the lifting amount to determine the ecological flow.

公开(公告)号：US11298877B2

公开(公告)日：2022-04-12

申请号：US16669602

申请日：2019-10-31

Applicant: Xi'an University of Technology

Inventor： Gengxiang Wang ,  Pengfei Li ,  Kaihe Wei

IPC: B29C64/245 ,  B29C64/209 ,  B29C64/227 ,  B33Y30/00

Abstract: A variable-size fully-automatic 3D printing system based on a cylindrical coordinate system includes a base provided with a retractable work platform; the base is provided with a vertical support side plate on a side thereof; an upper end of the support side plate is connected to a top plate, and the top plate is located directly above the base; a lower side of the top plate is connected to a sleeve via a column seat; a lower end of the sleeve is provided with a protrusion; a lower end of the protrusion is connected with a cross beam; a lower side of the cross beam is provided with a ball screw a, one end of the ball screw a is connected to a power end of a first servo motor disposed at an outer end of the cross beam.

公开(公告)号：US20200064514A1

公开(公告)日：2020-02-27

申请号：US16480870

申请日：2018-10-19

Applicant: Xi'an University of Technology ,  Lanzhou University

Inventor： Dengxin Hua ,  Lei Zhang ,  Fei Gao ,  Jun Wang ,  Huige Di ,  Zhongwei Huang ,  Tingyao He ,  Qing Yan ,  Wenhui Xin ,  Xianjie Cao ,  Yufeng Wang ,  Li Wang ,  Tian Zhou ,  Yan Li

IPC: G01W1/06 ,  G01S13/95 ,  G01S17/95 ,  G01W1/14

Abstract: A cloud water resource detecting system and method, the system includes a computing device, and Raman lidar, microwave radiometer, millimeter wave cloud radar, wind profile radar and Doppler wind lidar in communication connection with the computing device. The Raman lidar and the microwave radiometer are configured to obtain temperature and humidity data of a cloud system. The millimeter wave cloud radar and the microwave radiometer are configured to obtain cloud water content profiles. The wind profile radar is configured to obtain a horizontal wind speed of the cloud system. The Doppler wind lidar is configured to obtain the vertical motion speed of a cloud bottom. The computing device is configured to calculate the total amount of cloud water according to the temperature and humidity data of the cloud system, the cloud water content profiles, the horizontal wind speed of the cloud system and the vertical motion speed of the cloud bottom.