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Model, step

In order to describe inherited stress state of weldment the finite element modelling results are used. A series of finite element calculations were conducted to model step-by-step residual stresses as well as its redistribution due to heat treatment and operation [3]. The solutions for the reference weldment geometries are collected in the data base. If necessary (some variants of repair) the modelling is executed for this specific case. [Pg.196]

FIG. 3 Model stepped surface used in computer simulation studies. [Pg.259]

It is apparent that in these cases considering the changes of the engergy of the reelectrons for the two model steps start (AE(1)) and propagation (AE(2)) as well as... [Pg.197]

There are many methods that can be, and have been, used for optimization, classic and otherwise. These techniques are well documented in the literature of several fields. Deming and King [6] presented a general flowchart (Fig. 4) that can be used to describe general optimization techniques. The effect on a real system of changing some input (some factor or variable) is observed directly at the output (one measures some property), and that set of real data is used to develop mathematical models. The responses from the predictive models are then used for optimization. The first two methods discussed here, however, omit the mathematical-modeling step optimization is based on output from the real system. [Pg.610]

While the conceptual model is still on a non-simulation-expert level and understandable for the simulation expert as well as any project engineer, the formal model is steps further towards an expert level. Here, data structures and algorithms may be designed in detail before, in the final modeling step, the formal model is transformed into a computer model. [Pg.25]

When applying a mechanistic model, nearly all of the computational effort resides in step (3).109 In most mechanistic models, step (3) is modeled by one-dimensional reaction-diffusion equations of the form... [Pg.218]

Scheme 2 Reaction scheme for partial shell filled model, step (A) step (B) describes surface capping reactions... Scheme 2 Reaction scheme for partial shell filled model, step (A) step (B) describes surface capping reactions...
J. Grillaert, M. Meuris, N. Heylen, K. Devriendt, E. Vrancken, and M. Heyns, Modelling Step Height Reduction and Local Removal Rates Based on Pad-Substrate Interactions, Proc. of CMP-MIC, pp. 79-86, Feb. 1998. [Pg.134]

In the context of skin sensitization bioavailability can be seen as the capacity of the compound to reach the viable epidermis, where it interacts with keratinocytes and Langerhans cells. This capacity is dependent on its molecular weight and solubility in polar and apolar solvents [115]. Importantly, potency prediction solely on the basis of cell culture models (steps 3 and 4) does not account for skin penetration rate and may thus wrongly predict potency in vivo. Possible in vitro approaches to detect allergic capacity of chemicals/pharmaceuticals are presented in Table 18.5. [Pg.454]

Figure 4.50 Average versus transient model step load response of inductor current. Figure 4.50 Average versus transient model step load response of inductor current.
Figure 4.53 SIMetrix results transient model, step load response, inductor current... Figure 4.53 SIMetrix results transient model, step load response, inductor current...
Modifications to the model by Englezos et al. were later made to remove some minor inconsistencies and to account for the high solubility of carbon dioxide in water (Malegaonkar, et al., 1997). The last two steps are concepts with initial basic equations discussed in Section 3.2.1. Similarly to Equation 3.17, Englezos modeled steps (2) and (3) using Equation 3.18, where at steady state the rates of the two steps are assumed equal. Therefore, the rate of growth per particle is given by ... [Pg.169]

The FeMoco can be extracted intact (20) from the acid-denatured MoFe protein, which has the important consequence that modeling of its function may start with studies on the structure of the isolated cluster. The protein environment (and also solvent molecules) may be neglected in the first modeling step though they are essential for the reduction mechanism. This simplification appears to be mandatory since the electronic structure of the isolated cluster is extremely complicated. [Pg.57]

In this section, we will show the process of the construction of a mathematical model, step by step, in accordance with the procedure shown in Fig. 3.4. The case studied has already been introduced in Figs. 1.1 and 1.2 of Chapter 1. These figures are concerned with a device for filtration with membranes, where the gradient is given by the transmembrane pressure between the tangential flow of the suspension and the downstream flow. The interest here is to obtain data about the critical situations that impose stopping of the filtration. At the same time, it is important to, a priori, know the unit behaviour when some of the components of the unit, such as, for example, the type of pump or the membrane surface, are changed. [Pg.50]

These expressions have been used to model stepped surfaces [20], surfaces with grooves [19], and pores with rectangular cross sections [21]. The structure and the... [Pg.592]

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See also in sourсe #XX -- [ Pg.194 ]



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2- Step adsorption model

A Conceptual Model for Step Wise Purification ofFAZ

Brief History of Step Reaction Kinetic Modeling

Copolymer modeling step

Diffusion model small-step

Explicit Fractional Step Algorithm for Solving the Two-Fluid Model Equations Applied to Bubble Column Flow

Five-step model

Flow modeling project, step

Implementation Steps for Model Discrimination

Industrial step-growth products, processes and modeling

Kinetic models, chemical steps involved

Mathematic Modeling Steps

Mathematical Modeling steps

Mechanistic studies and derivation of a model for the enantioselective step

Microscale Two-Step Models

Model Creation Steps

Model predictive control step-response

Model systems potential step

Modeling of Processing Machines Using Elementary Steps

Modeling steps

Modelling from Noisy Step Response Data Using Laguerre Functions

Modelling techniques steps involved

Models Based on a Rate-Controlling Step

Models for stepped

Multi-Step-Model

Numerical modeling time stepping process

One-step model

One-step reaction model

Pharmacophore Models as Part of a Multi-step Screening Approach

Planning five-step model

Propagation steps Markov model

Protein homology modeling steps

Reaction Step Models for Photoemission

Reaction modelling steps

Rotational diffusion model small step

Single-Step-Model

Small Step Rotational Diffusion and Strong Collision Models

Step 4 Constructing Protein Models

Step 5 Refinement of Protein Models

Step 6 Evaluating Protein Models

Step growth models

Step response model

Step-ladder Models

Steps for Generating Wire Load Models

Steps in chemical process modelling control

Steps in model building

Steps in the Modeling Process

Steps of Geometric Modeling

Steps of the AHP Model

Steps to model

Surface reactions buffer-step models

Terrace-step-kink models

The three-step model

Thermal degradation modeling steps

Three step model

Transitioning five-step model

Two-Step Entangling Model

Two-step binding model

Two-step models

VSEPR model steps

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