A Study of Machine Design Method Based on Technological Process

Materials Science Forum ◽

10.4028/www.scientific.net/msf.697-698.671 ◽

2011 ◽

Vol 697-698 ◽

pp. 671-675

Author(s):

D. Wang ◽

Yu Hu Yang ◽

Z. Shi

Keyword(s):

Real Time ◽

Technological Process ◽

Design Process ◽

Design Method ◽

Tree Structure ◽

Machine Design ◽

Practical Design

This paper proposes a method of building the design tree with stratified constraints and modifications for the machine design with pre-defined technological process. The design method displays the design process in a tree structure with overall open yet local convergent characteristics. It is applied to develop an innovative, a comprehensive, and practical design through design detailing, integrative constraints and interventions, and real-time evaluations. As an example the design of the tire-building drum is given.

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Research on Configuration Design Method of Mass Customization Product Based-on Function-Structure Model

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.88-89.204 ◽

2011 ◽

Vol 88-89 ◽

pp. 204-208

Author(s):

Qian Yin ◽

Yong Jian Sun ◽

Wei Zong Zhou ◽

Xia Jing Ni ◽

Kun Chang Chen ◽

...

Keyword(s):

Real Time ◽

Design Process ◽

Mass Customization ◽

Design Method ◽

Configuration Design ◽

Structure Model ◽

Function Structure ◽

General Design ◽

Current Configuration ◽

Structure Configuration

Considering the problem that current configuration design method is mainly faced for professionals, based-on the analysis of different customers’ respective understanding of products and configuration methods, a function-structure configuration method of mass customization product is proposed according to the general design process from function to structure. Meanwhile, in the configuration real-time related analyses and advices are provided customers, which would guide customers to complete configuration design of personal product rapidly. Finally, a wheel lock configuration case is given to illustrate the proposed method.

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HRT-HOOD™: A Structured Design Method for Hard Real-Time Ada Systems

10.1016/s1572-5960(06)x8001-4 ◽

1995 ◽

Keyword(s):

Real Time ◽

Design Method ◽

Structured Design ◽

Hard Real Time

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CONTROL IN REAL TIME THE DENSITY OF PRODUCT AT VARIOUS STAGES OF THE TECHNOLOGICAL PROCESS OF SUGAR PRODUCTION

STATE AND DEVELOPMENT PROSPECTS OF AGRIBUSINESS. In the frame of the XXIII Agribusiness Forum of the South of Russia and the Exhibition «Interagromash» Volume 1 ◽

10.23947/interagro.2020.1.630-632 ◽

2020 ◽

Author(s):

S.B. Kudryashev ◽

◽

N.S. Assev ◽

R.D. Belashov ◽

V.A. Naumenko ◽

...

Keyword(s):

Real Time ◽

Technological Process ◽

Sugar Industry ◽

Sugar Production ◽

Production Processes ◽

Quality Of Products

The article is devoted to solving one of the most important problems of the development of the sugar industry in Russia – the modernization of sugar production processes. Today, sugar production is actively being modernized, shifting most of its processes to the path of avomatization and optimization to improve the quality of products. This article describes one of the main ways to obtain information about the concentration of sucrose in syrup in the production of sugar.

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Development of the design method for the optimal design of the Neutron Converter experimental plant

CPT2020 The 8th International Scientific Conference on Computing in Physics and Technology Proceedings ◽

10.30987/conferencearticle_5fce2773381190.97192388 ◽

2020 ◽

Author(s):

Timur Smetani ◽

Elizaveta Gureva ◽

Vyacheslav Andreev ◽

Natalya Tarasova ◽

Nikolai Andree

Keyword(s):

Optimal Design ◽

Flux Density ◽

Design Process ◽

Design Method ◽

Fast Neutrons ◽

Experimental Plant ◽

Plant Design ◽

State Technical ◽

Research Organizations ◽

Neutron Converter

The article discusses methods for optimizing the design of the Neutron Converter research plant design with parameters that are most suitable for a particular consumer. 38 similar plant structures with different materials and sources were calculated, on the basis of which the most optimal options were found. As part of the interaction between OKBM Afrikantov JSC and the Nizhny Novgorod State Technical University named after R. E. Alekseev, the Neutron Converter research plant was designed and assembled. The universal neutron converter is a device for converting a stream of fast neutrons emitted by isotopic sources into a "standardized" value of flux density with known parameters in the volume of the central part of the product, which is the working part of the universal neutron converter. To supply neutron converters to other customer organizations (universities, research organizations and collective centers), it is necessary to take into account the experience of operating an existing facility, as well as rationalize the design process of each specific instance in accordance with the requirements of the customer.

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Learning Feedforward Control Using Multiagent Control Approach for Motion Control Systems

Energies ◽

10.3390/en14020420 ◽

2021 ◽

Vol 14 (2) ◽

pp. 420

Author(s):

Phong B. Dao

Keyword(s):

Real Time ◽

Feedforward Control ◽

Design Method ◽

Mechatronic Systems ◽

Control Approach ◽

Runtime Environment ◽

Multiagent Control ◽

On Line ◽

Promising Solution ◽

Function Approximator

Multiagent control system (MACS) has become a promising solution for solving complex control problems. Using the advantages of MACS-based design approaches, a novel solution for advanced control of mechatronic systems has been developed in this paper. The study has aimed at integrating learning control into MACS. Specifically, learning feedforward control (LFFC) is implemented as a pattern for incorporation in MACS. The major novelty of this work is that the feedback control part is realized in a real-time periodic MACS, while the LFFC algorithm is done on-line, asynchronously, and in a separate non-real-time aperiodic MACS. As a result, a MACS-based LFFC design method has been developed. A second-order B-spline neural network (BSN) is used as a function approximator for LFFC whose input-output mapping can be adapted during control and is intended to become equal to the inverse model of the plant. To provide real-time features for the MACS-based LFFC system, the open robot control software (OROCOS) has been employed as development and runtime environment. A case study using a simulated linear motor in the presence of nonlinear cogging and friction force as well as mass variations is used to illustrate the proposed method. A MACS-based LFFC system has been designed and implemented for the simulated plant. The system consists of a setpoint generator, a feedback controller, and a time-index LFFC that can learn on-line. Simulation results have demonstrated the applicability of the design method.

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Software Design Method for Small Real Time Systems Using Modified Pro-Nets

IFAC Proceedings Volumes ◽

10.1016/s1474-6670(17)49615-7 ◽

1992 ◽

Vol 25 (25) ◽

pp. 263-265

Author(s):

B.R. Andrievsky ◽

A.A. Vasiljev ◽

V.N. Utkin

Keyword(s):

Real Time ◽

Software Design ◽

Design Method ◽

Real Time Systems ◽

Time Systems

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Development of Optimal Design Method for Steel Double-Beam Floor System Considering Rotational Constraints

Applied Sciences ◽

10.3390/app11073266 ◽

2021 ◽

Vol 11 (7) ◽

pp. 3266

Author(s):

Insub Choi ◽

Dongwon Kim ◽

Junhee Kim

Keyword(s):

Optimal Design ◽

Design Process ◽

Design Method ◽

Steel Beams ◽

High Gravity ◽

Double Beam ◽

Iterative Analysis ◽

Floor Systems ◽

Optimal Design Method ◽

Floor System

Under high gravity loads, steel double-beam floor systems need to be reinforced by beam-end concrete panels to reduce the material quantity since rotational constraints from the concrete panel can decrease the moment demand by inducing a negative moment at the ends of the beams. However, the optimal design process for the material quantity of steel beams requires a time-consuming iterative analysis for the entire floor system while especially keeping in consideration the rotational constraints in composite connections between the concrete panel and steel beams. This study aimed to develop an optimal design method with the LM (Length-Moment) index for the steel double-beam floor system to minimize material quantity without the iterative design process. The LM index is an indicator that can select a minimum cross-section of the steel beams in consideration of the flexural strength by lateral-torsional buckling. To verify the proposed design method, the material quantities between the proposed and code-based design methods were compared at various gravity loads. The proposed design method successfully optimized the material quantity of the steel double-beam floor systems without the iterative analysis by simply choosing the LM index of the steel beams that can minimize objective function while satisfying the safety-related constraint conditions. In particular, under the high gravity loads, the proposed design method was superb at providing a quantity-optimized design option. Thus, the proposed optimal design method can be an alternative for designing the steel double-beam floor system.

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Impact of Secondary Flow on the Accuracy of Simplified Design Methods for Steam Turbine Stages

Volume 6: Oil and Gas Applications; Concentrating Solar Power Plants; Steam Turbines; Wind Energy ◽

10.1115/gt2012-69839 ◽

2012 ◽

Cited By ~ 1

Author(s):

Jan Schumann ◽

Ulrich Harbecke ◽

Daniel Sahnen ◽

Thomas Polklas ◽

Peter Jeschke ◽

...

Keyword(s):

Secondary Flow ◽

Steam Turbine ◽

Design Process ◽

Design Method ◽

Computing Time ◽

Leading Edge ◽

Design Methods ◽

Preliminary Design ◽

Line Design ◽

Radial Equilibrium

The subject of the presented paper is the validation of a design method for HP and IP steam turbine stages. Common design processes have been operating with simplified design methods in order to quickly obtain feasible stage designs. Therefore, inaccuracies due to assumptions in the underlying methods have to be accepted. The focus of this work is to quantify the inaccuracy of a simplified design method compared to 3D Computational Fluid Dynamics (CFD) simulations. Short computing time is very convenient in preliminary design; therefore, common design methods work with a large degree of simplification. The origin of the presented analysis is a mean line design process, dealing with repeating stage conditions. Two features of the preliminary design are the stage efficiency, based on loss correlations, and the mechanical strength, obtained by using the beam theory. Due to these simplifications, only a few input parameters are necessary to define the primal stage geometry and hence, the optimal design can easily be found. In addition, by using an implemented law to take the radial equilibrium into account, the appropriate twist of the blading can be defined. However, in comparison to the real radial distribution of flow angles, this method implies inaccuracies, especially in regions of secondary flow. In these regions, twisted blades, developed by using the simplified radial equilibrium, will be exposed to a three-dimensional flow, which is not considered in the design process. The analyzed design cases show that discrepancies at the hub and shroud section do exist, but have minor effects. Even the shroud section, with its thinner leading-edge, is not vulnerable to these unanticipated flow angles.

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