Interactive software for calculating the principal stresses of compacted cohesive powders with the Warren-Spring equation

Rehabilitation with implant prostheses in posterior areas requires the maximum number of possible implants due to the greater masticatory load of the region. However, the necessary minimum requirements are not always present in full. This project analyzed the minimum principal stresses (TMiP, representative of the compressive stress) to the friable structures, specifically the vestibular face of the cortical bone and the vestibular and internal/lingual face of the medullary bone. The experimental groups were as follows: the regular splinted group (GR), with a conventional infrastructure on 3 regular-length Morse taper implants (4 × 11 mm); and the regular pontic group (GP), with a pontic infrastructure on 2 regular-length Morse taper implants (4 × 11 mm). The results showed that the TMiP of the cortical and medullary bones were greater for the GP in regions surrounding the implants (especially in the cervical and apical areas of the same region) but they did not reach bone damage levels, at least under the loads applied in this study. It was concluded that greater stress observed in the GP demonstrates greater fragility with this modality of rehabilitation; this should draw the professional's attention to possible biomechanical implications. Whenever possible, professionals should give preference to use of a greater number of implants in the rehabilitation system, with a focus on preserving the supporting tissue with the generation of less intense stresses.

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ANALYZING AND IMPROVING WEB APPLICATION QUALITY USING DESIGN PATTERNS

INTERNATIONAL JOURNAL OF COMPUTERS & TECHNOLOGY ◽

10.24297/ijct.v2i2b.2641 ◽

2012 ◽

Vol 2 (2) ◽

pp. 112-116

Author(s):

Shikha Bhatia ◽

Mr. Harshpreet Singh

Keyword(s):

Web Application ◽

Design Pattern ◽

Design Patterns ◽

Web Applications ◽

Past Research ◽

Software Systems ◽

Interactive Software ◽

Web Based ◽

Software Application ◽

Execution Speed

With the mounting demand of web applications, a number of issues allied to its quality have came in existence. In the meadow of web applications, it is very thorny to develop high quality web applications. A design pattern is a general repeatable solution to a generally stirring problem in software design. It should be noted that design pattern is not a finished product that can be directly transformed into source code. Rather design pattern is a depiction or template that describes how to find solution of a problem that can be used in many different situations. Past research has shown that design patterns greatly improved the execution speed of a software application. Design pattern are classified as creational design patterns, structural design pattern, behavioral design pattern, etc. MVC design pattern is very productive for architecting interactive software systems and web applications. This design pattern is partition-independent, because it is expressed in terms of an interactive application running in a single address space. We will design and analyze an algorithm by using MVC approach to improve the performance of web based application. The objective of our study will be to reduce one of the major object oriented features i.e. coupling between model and view segments of web based application. The implementation for the same will be done in by using .NET framework.

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Influence exerted by underground excavation shape and by effective stresses on the formation of a tensile strain zone at a depth greater than 1 km

MINING INFORMATIONAL AND ANALYTICAL BULLETIN ◽

10.25018/0236-1493-2020-6-0-67-75 ◽

2020 ◽

pp. 67-75

Author(s):

Van Min Nguyen ◽

V. A. Eremenko ◽

M. A. Sukhorukova ◽

S. S. Shermatova

Keyword(s):

Rock Mass ◽

Cross Sections ◽

Tensile Strain ◽

Rock Fracture ◽

Strain Analysis ◽

Surrounding Rock ◽

Underground Excavation ◽

Secondary Stress ◽

Principal Stresses ◽

Mining Depth

The article presents the studies into the secondary stress field formed in surrounding rock mass around underground excavations of different cross-sections and the variants of principal stresses at a mining depth greater than 1 km. The stress-strain analysis of surrounding rock mass around development headings was performed in Map3D environment. The obtained results of the quantitative analysis are currently used in adjustment of the model over the whole period of heading and support of operating mine openings. The estimates of the assumed parameters of excavations, as well as the calculations of micro-strains in surrounding rock mass by three scenarios are given. During heading in the test area in granite, dense fracturing and formation of tensile strain zone proceeds from the boundary of e ≥ 350me and is used to determine rough distances from the roof ( H roof) and sidewalls ( H side) of an underground excavation to the 3 boundary e = 350me (probable rock fracture zone). The modeling has determined the structure of secondary stress and strain fields in the conditions of heading operations at great depths.

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Usability of a psychotherapeutic interactive gaming tool used in facial emotion recognition for people with schizophrenia (Preprint)

10.2196/preprints.13702 ◽

2019 ◽

Author(s):

Ingrid Tortadès ◽

Roberto Gonzalez ◽

Francesc Alpiste ◽

Joaquín Fernandez ◽

Jordi Torner ◽

...

Keyword(s):

Theory Of Mind ◽

Emotion Recognition ◽

Attributional Style ◽

Pilot Project ◽

Error Rates ◽

Facial Emotion Recognition ◽

Facial Emotion ◽

Interactive Software ◽

Emotional Recognition ◽

Attribution Questionnaire

BACKGROUND Emotional Recognition (ER) is one of the areas most affected in people with schizophrenia. However, there are no software tools available for the assessment of ER. The interactive software program ‘Feeling Master’ (a cartoon facial recognition tool) was developed to investigate the deficit in facial emotion recognition (FER) with a sample of patients with schizophrenia in a pilot project framework. OBJECTIVE The aim of the study was to test the usability of ‘Feeling Master’ as a psychotherapeutic interactive gaming tool for the assessment of emotional recognition in people with schizophrenia compared with healthy people, and the relationship between FER, attributional style and theory of mind. METHODS Nineteen individuals with schizophrenia and 17 healthy control (HC) subjects completed the ‘Feeling Master’ including five emotions (happiness, sadness, anger, fear, and surprise). Regarding the group with schizophrenia they were evaluated with the Personal and Situational Attribution Questionnaire (IPSAQ) and the Hinting Task (Theory of Mind) to evaluate social cognition. RESULTS Patients with schizophrenia showed impairments in emotion recognition and they remained slower than the HC in the recognition of each emotion (P<.001). Regarding the impairment in the recognition of each emotion we only found a trend toward significance in error rates on fear discrimination (P=.07). And the correlations between correct response on the ‘Feeling Master’ and the hinting task showed significant values in the correlation of surprise and theory of mind (P=.046). CONCLUSIONS In conclusion, the study puts forward the usability of the ‘Feeling Master’ in FER for people with schizophrenia. These findings lend support to the notion that difficulties in emotion recognition are more prevalent in people with schizophrenia, and that these are associated with impairment in ToM, suggesting the potential utility of the FER in the rehabilitation of people with schizophrenia.

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An octahedral stress-based fracture criterion for hyperelastic materials

Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science ◽

10.1177/0954406220972136 ◽

2020 ◽

pp. 095440622097213

Author(s):

A Hamdi ◽

A Boulenouar ◽

N Benseddiq

Keyword(s):

Pure Shear ◽

Thermoplastic Elastomer ◽

Styrene Butadiene Rubber ◽

Butadiene Rubber ◽

Principal Stresses ◽

Hyperelastic Materials ◽

Biaxial Tests ◽

Set Up ◽

Loading Modes ◽

Styrene Butadiene

No uniﬁed stress-based criterion exists, in the literature, for predicting the rupture of hyperelastic materials subjected to mutiaxial loading paths. This paper aims to establish a generalized rupture criterion under plane stress loading for elastomers. First, the experimental set up, at breaking, including various loading modes, is briefly described and commented. It consists of uniaxial tests, biaxial tests and pure shear tests, performed on different rubbers. The used vulcanizate and thermoplastic rubber materials are a Natural Rubber (NR), a Styrene Butadiene Rubber (SBR), a Polyurethane (PU) and a Thermoplastic elastomer (TPE). Then, we have investigated a new theoretical approach, based upon the principal stresses, to establish a failure criterion under quasi-static loadings. Thus, we have proposed a new analytical model expressed as a function of octahedral stresses. Quite good agreement is highlighted when comparing the ultimate stresses, at break, between the experimental data and the prediction of the proposed criteria using our rubber-like materials.

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Experimental study on conveying characteristics of a novel top-discharge blow tank for fine cohesive powders

Powder Technology ◽

10.1016/j.powtec.2020.10.033 ◽

2021 ◽

Vol 379 ◽

pp. 335-344

Author(s):

Haipeng Zhu ◽

Huibin Xu ◽

Wenqi Zhong ◽

Aibing Yu

Keyword(s):

Experimental Study ◽

Cohesive Powders

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An Interactive Web Application for the Statistical Analysis of Continuous Glucose Monitoring Data in Epidemiological Studies

Journal of Diabetes Science and Technology ◽

10.1177/1932296820985570 ◽

2021 ◽

pp. 193229682098557

Author(s):

Alysha M. De Livera ◽

Jonathan E. Shaw ◽

Neale Cohen ◽

Anne Reutens ◽

Agus Salim

Keyword(s):

Continuous Glucose Monitoring ◽

Web Application ◽

Diabetes Management ◽

Glucose Monitoring ◽

Epidemiological Studies ◽

Interactive Software ◽

Web Based ◽

Software Applications ◽

Visualization Of Data ◽

User Friendly

Motivation: Continuous glucose monitoring (CGM) systems are an essential part of novel technology in diabetes management and care. CGM studies have become increasingly popular among researchers, healthcare professionals, and people with diabetes due to the large amount of useful information that can be collected using CGM systems. The analysis of the data from these studies for research purposes, however, remains a challenge due to the characteristics and large volume of the data. Results: Currently, there are no publicly available interactive software applications that can perform statistical analyses and visualization of data from CGM studies. With the rapidly increasing popularity of CGM studies, such an application is becoming necessary for anyone who works with these large CGM datasets, in particular for those with little background in programming or statistics. CGMStatsAnalyser is a publicly available, user-friendly, web-based application, which can be used to interactively visualize, summarize, and statistically analyze voluminous and complex CGM datasets together with the subject characteristics with ease.

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Local and non-local damage model with extended stress decomposition for concrete

International Journal of Damage Mechanics ◽

10.1177/1056789521998728 ◽

2021 ◽

pp. 105678952199872

Author(s):

Bilal Ahmed ◽

George Z Voyiadjis ◽

Taehyo Park

Keyword(s):

Shear Stress ◽

Degrees Of Freedom ◽

Biaxial Loading ◽

Damage Model ◽

Local Model ◽

Uniaxial Tensile ◽

Gradient Theory ◽

Principal Stresses ◽

Stress Decomposition ◽

Non Local

In this work, a new damage model for concrete is proposed with an extension of the stress decomposition (limited to biaxial cases), to capture shear damage due to the opposite signed principal stresses. To extract the pure shear stress, the assumption is made that one component of the shear stress is a minimum absolute of the two principal stresses. The opposite signed principal stresses are decomposed into shear stress and uniaxial tensile/compressive stress. A local model is implemented in Abaqus UMAT and it is further extended to a non-local model by utilization of the gradient theory. The concept of three length scales (tension, compression, and shear) is kept the same as the recently proposed nonlocal damage model by the authors. The nonlocal model is implemented in the Abaqus UEL-UMAT subroutine with an eight-node quadrilateral user-defined element, having five degrees of freedom at corner nodes (displacement in X/Y direction and tensile/compressive and shear nonlocal equivalent strain) and two degrees of freedom at internal nodes. Some examples of a local model including uniaxial and biaxial loading are addressed. Also, five examples of mixed crack mode and mode-I cracking are presented to comprehensively show the performance of this model.

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Influence of the Material and Thickness of the Specimen on an Infrared Stress Image

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.261-263.1641 ◽

2004 ◽

Vol 261-263 ◽

pp. 1641-1646

Author(s):

Kenji Machida ◽

Mamtimin Gheni

Keyword(s):

Thermal Conductivity ◽

Hybrid Method ◽

Thermal Conduction ◽

Crack Problem ◽

High Stress ◽

High Accuracy ◽

Problem Analysis ◽

Principal Stresses ◽

Distribution Form ◽

Stress Components

The thickness dependency of the temperature image obtained by an infrared thermography was investigated using specimens with three kinds of materials and four kinds of the thickness of the specimen. Only the sum of the principal stresses which is the first invariant of stress tensor is measured, and it is impossible to measure individual stress components directly. Then, the infrared hybrid method was developed to separate individual stress components. Although the form of the contour line of low stress side differs greatly, the distribution form of high stress side was considerably alike. The stress intensity factor of material with low thermal conductivity can be estimated with high accuracy by the infrared hybrid method. On the crack problem, it was elucidated that the influence of thermal conduction is large and an inverse problem analysis is required.

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The Mechanical Behavior of Short-Fiber-Elastomer Composites

Rubber Chemistry and Technology ◽

10.5254/1.3535004 ◽

1976 ◽

Vol 49 (5) ◽

pp. 1167-1181 ◽

Cited By ~ 45

Author(s):

A. Y. Coran ◽

P. Hamed ◽

L. A. Goettler

Keyword(s):

Test Piece ◽

Composite Plates ◽

Short Fiber ◽

Strength Properties ◽

Unidirectional Composite ◽

Short Fibers ◽

Principal Stresses ◽

Elastomer Composites ◽

Ultimate Limit ◽

Time Of Failure

Abstract The measured elastic and strength properties of angle-ply composites of short fibers and rubber depend on test-piece geometry. In general, higher tensile moduli and strengths are obtained when plies are both thin and wide. Once the effects of test-piece geometry are taken into account, elastic properties can be calculated as functions of the properties of a single ply. Classical compliance transformation equations can be used. However, because of the invariance of shear modulus in aligned composites, the tensor transformation equations are somewhat simplified. Tensile strengths of off-axis unidirectional composite plates and balanced-angle plies can be fitted by Hill's criterion. Unidirectional composites tend to fail in the weakest mode, depending on the angle of stress, but laminating causes all principal stresses in a ply to be near their ultimate limit at the time of failure.

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