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Reality Television Contracts

TALENT ATTACHMENT CONTRACT

Producers often create an idea for a reality show based on a specific person (“Keeping up with the Kardashians”), a type of person (The “Real Housewives” franchise), or a business (“Rob Dyrdek's Fantasy Factory”). Producers may also base an unscripted show on the ideas and/or existing intellectual property of another (“Rich Kids of Instagram”). Once the producer has settled on a concept, the producer will want to “attach” the on camera services of talent. This “attachment agreement” gives the producer the right to present the project and the on-camera talent to potential buyers for a limited period of time. If the talent is essential to the project or the talents on-camera participation will help sell the project, an agreement between the talent and producer is essential. Otherwise, when the show is sold the talent may ask for

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Development Agreement – American Bar Association

During the Development Period (and thereafter if a deal is made with a Financier), COMPANY will have the exclusive right to represent the Series (including any television spin-off, sequel or prequel (spin-off is defined as a new television production which has any characters, Talent, locations and/or unique elements in a COMPANY Proposal or in the materials regarding the “Series Name”, whether in documentary, docu-drama, docu-soap or fictional-situational genre/format) as producers/executive producers. COMPANY agrees that Artists shall be attached to the Series so long as COMPANY is attached (including any television spin-off, sequel or prequel as such terms are defined herein and all ancillary rights to the Series, including, but not limited to, the exhibition of the Series in any other medium where now known or hereinafter discovered).

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Motorsports Development Agreement By And Between Mayor And City Council Of Baltimore And Downforce Racng, LLC

MOTORSPORTS DEVELOPMENT AGREEMENT BY AND BETWEEN
THE MAYOR AND CITY COUNCIL OF BALTIMORE AND
DOWNFORCE RACING, LLC

This Motorsports Development Agreement (“Agreement’’) is entered into as of this day of February, 2012, by and between the Mayor and City Council of Baltimore (“City”), a body corporate and politic of the State of Maryland, and Downforce Racing, LLC (“DFR”), a limited liability company duly organized under the laws of Delaware and registered to do business in the State of Maryland (hereafter individually a “Party” and collectively “the Parties”).

WHEREAS, the City desires to promote events that are of interest and benefit to the residents of the City, to expand national and international tourism to the City, and otherwise to enhance economic opportunities for the benefit of the City, its residents and local businesses; and

WHEREAS, the City has determined that the holding of a series of internationally- recognized automobile races approved by one or more authorized automobile sanctioning bodies, together with a variety of sporting, entertainment, it...

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Benchmarking in Business through Talents: Beyond the Success in Motorsports

Abstract.

In today‟s business environment, talent has become the potentially powerful source of competitive advantage. It is the fundamental building block to creating an organization which is capable of learning, innovating and changing, as well as executing new processes. It has been said that, talent management include the additional management processes and opportunities put in place for people in the organization that are considered to be talented. This paper intends to present a guide for racers to drive their companies by extending their success on the race tracks into business. This piece of work is based on the information gathered through in-depth interviews with three business owners that are also active racers. In the course of the interview, feedbacks regarding benchmarking through talent in motorsports and businesses were sought. The importance of talent management as seen through the prism of how top performers in motorsports have succeeded in driving their business while still producing impressive results on the race tracks was established in this study.

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Combined Simulation Of Spark Ignition Internal Combustion Engines And Heat Conduction Within Piston

Abstract

A combined thermodynamic simulation and transient conduction heat transfer through piston has been carried out in this study. In thermodynamic simulation, A computer programme has been developed to study the full operation cycle of a four stroke internal combustion engine. The simulation used to calculate the pressure and temperature field existing in realistic engine combustion chambers for various engine parameters. The one dimensional conduction heat transfer equation has been solved numerically. The results show a good agreement with previous studies where applicable.

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Tumultuous times in NASCAR: Antitrust implications for drivers and teams

Abstract

The National Association of Stock Car Auto Racing (NASCAR) is experiencing a decline in fans, TV viewers and sponsorship revenues. The current state of the sport has motivated drivers and teams to create organizations that may lead to collective bargaining attempts. Collective bargaining is governed by federal antitrust law. This rhetorical analysis presents legal case studies in NASCAR’s prior attempts to manage sanctioning of national championship racing events, which led to restraint of trade and antitrust litigation. Implications for the future actions of facilities, drivers, teams and sanctioning bodies can be tested through the definition of antitrust and fair competition in the marketplace.

Introduction

The predominant stock-bodied auto racing sport in the United States is the National Association of Stock Car Auto Racing (NASCAR). It was created in 1948 by patriarch Bill France, Sr. and remains a private business...

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Sintering Of Powder Premixes

Abstract

Advances in the understanding of the sintering of powder premixes have contributed significantly to the growth of the ferrous powder metallurgy industry. This includes sintering both in the solid state and in the presence of a liquid phase. In this article, the sintering of iron powder premixes containing: 1) graphite; 2) nickel and graphite; 3) copper and graphite; 4) Phosphorus as ferrophosphorus; and, 5) boron as ferroboron are discussed. The evolution of microstructure and mechanical properties are discussed as well.

INTRODUCTION

The growth of ferrous powder metallurgy (P/M) over the past five decades has been outstanding as this technology is proving itself as an alternative lower cost process to machining, casting, stamping, forging, and other similar metal working technologies. The growth has been spurred by continuing technological advancements in powder making and processing, alloy development, and parts production methods. ..

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JIP Reduced Iron Powders Atomized Iron And Steel Powders

As a total iron powder maker, JFE Steel Corporation is the only company in Japan which produces and sells both reduced iron powder and atomized iron powder. The former is produced by reducing mill scale (iron oxide), and the latter, by atomizing molten steel with water. In addition to reduced iron powders, atomized iron powders, and alloyed steel powders, JFE also produces Clean Mix powders by applying a segregation-free treatment to these materials. JFE's iron powder products are used in a wide range of applications, beginning with powder metallurgy, where they are the main material for sintered machine parts for automobiles, electric appliances, and other types of machinery. They are also used as the main material for magnetic materials, the heating component in disposable body warmers, toner carriers for copying machines, and in numerous other applications, and have earned a high reputation in all these fields.

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Prediction of Iron Ore Sintering Characters on the Basis of Regression Analysis and Artificial Neural Network

Abstract

Iron ore sintering is a complex and hysteresis process, so the prediction of the iron ore sintering character is very necessary. By using stepwise regression analysis, this paper confirms the main factors that influence moisture content, fuel ratio, sintering speed and the sintering drum strength. By using BP artificial neural network, we construct the prediction model against the four characters mentioned afore, and prediction accuracy are 96.67%, 93.33%, 86.67% and 93.33% respectively. The model result used in sintering pot test, the experimental results show that the mix moisture and fuel ratio are optimized, and the sinter drum strength is improved.

1 Preamble

The iron and steel are the most vastly used structural materials and the biggest output functional materials, which amounts to 626,700,000 tons in 2010 in China, 42% of the global output. Along with iron and steel industry's

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Clutch Assembly Modeling And Dynamic Analysis

Abstract

In this project dynamic analysis of clutch assembly will be carried out. Clutches are useful in devices that have two rotating shafts. In these devices, one of the shafts is typically driven by a motor or pulley, and the other shaft drives another device.

The clutch connects the two shafts so that they can either be locked together and spin at the same speed, or be decoupled and spin at different speeds. In evaluating the stresses and strain in the part, modeling and simulation are used.The modeling of the clutch assembly is modeled using 3D software. Here we will be using Pro E for modeling. The simulation part will be carried out using the Analysis software, ANSYS. The created model is exported to ANSYS by converting it to IGES format. The imported model is meshed in ANSYS and boundary constrains are defined. With the Boundary constrains, the stresses and strain of the clutch assembly can be determined and the values are tabulated. Thus the investigation of stress and strain is carried out using ANSYS. This project will also help to learn Pro E and also ANSYS.

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Modeling and Simulation of Processes from an Iron Ore Sintering Plant

Abstract:

This work presents the mathematic models of the basic processes from an iron ore processing plant. Based on the mathematic models, using the Matlab/Simulink platform, it was achieved the simulation of the dosing process and simulation of the sintering process. The achieved mathematic model allows the determination of the material flows in the charge at their chemical composition variation, or at the variation of the reference values of the parameters S, I, r0, c0. Further the simulation, there are obtained the time-variations of the optimal speed for the sintering machine at different distributions of iron ore’s temperatures on the sintering band.

1 Introduction

Restructuring of metallurgical industry is strongly influenced by the modernization of manufacturing processes from the sintering plants. Sintering, as physical-chemical process of iron ores preparation and obtaining of a controlled situation, is of maximum importance because the...

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Effect of Sintering Temperature on Friction Performance of Cu-based Nanometer Composites Reinforced by Nano SiO2 Particles

Abstract.

The Cu-based nanometer composites reinforced by 1.0 wt% nano-SiO2 particles (Cu/n-SiO2) were prepared by powder metallurgy at different sintering temperature. The friction performance of the composites were studied by ball-disk friction tester. The results indicate the dynamice friction coefficient and wear rate of the composites gradually increase with the sintering temperature increasing (between 800 and 950 ) ℃ .

Intorduction

The nano SiO2 particles are amorphous inorganic non-metallic materials, which have excellent properties such as wear resistance and corrosion resistance because of its small size effect, surface and interface effect and so on. The nano SiO2 are widely used in high polymer, ceramics, coatings and biomedical fields [1-2]. In recent years, nano-SiO2 particles are gradually used in Cu-based composites. Besides keeping copper’s original excellent conductivity, thermal conductivity and elastic-plastic properties, nano-SiO2 can enhance the strength a

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Sintering Applications

Preface

Materials science and engineering depends on three classes of materials namely metals, ceramics and polymers. The aim of this book is to help the graduate and doctoral students in materials science and related disciplines on the sintering of several materials. During the sintering process, changes occur in the microstructure because of decomposition or phase transformations. Three major changes commonly ocur during sintering. The grain size increases, pore shape and pore size changes. The result is a decrease in the porosity after sintering. The fabrication process for ceramics involves several different steps. The first step in ceramics processing is compaction. In the compaction stage, ceramic powders are pressed in a die to shape the powder into the desired form. Sintering is one of the final stages of ceramics fabrication and is used to increase the strength of the compacted material. In the Sintering of Ceramics section,

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How to Measure Phase Distribution and Degree of Sintering in Iron Ore Pellets

Abstract

Iron ore pellets are made from refined and ground ore that is balled into spheroids and then heat treated. Pellet properties are measured through standardized physical, chemical and metallurgical tests to guarantee a high quality end product. However to better understand the oxidation and sintering of iron ore pellets one has to study the microstructures. This paper provides a proof of concept that optical microscopy combined with image analysis methods can be used to quantitatively measure phase distribution and degree of sintering in iron ore pellets.

I. INTRODUCTION

The iron ore extracted from LKAB’s underground mines consists mainly of the mineral magnetite. Magnetite, as the name implies is the most magnetic of all the naturally occurring minerals and has a black color with a brownish tint. About 80% of LKAB production consists of iron ore pellets, which are are made from...

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Particle Packing, Compaction And Sintering In Powder Metallurgy

This thesis focuses on the improvement of density based on the controlhg of particle packing and the subsequent densification processes. Fist, the two-sphere mode1 for monosized powder to determine the lattice diffiision contribution in sintering is considered. Based on Eadie's model, two new solutions are developed and presented, an upper lirnit solution with dace curvature at a maximum al1 dong the neck and a more accurate solution in which the form of the surface curvature at the neck can be varied as appropriate. Producing birnodal powder distribution powder metallurgy (Pl4 parts is next considered. It is shown that this technique is capable of producing parts with exceilent final densities and mechanical properties. In order to explain the above expenrnental results, theoretical research about bimodal powder is focused on particle packing. The first theoretical tool is the coordination number of the particles a...

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