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Training / Education

Applied Brake Controls ABS, TCS, and ESC

2020-01-27
Experience the vehicle dynamic enhancements afforded by anti-lock brakes (ABS), traction control (TCS), and electronic stability control (ESC) with this highly interactive two-day seminar. Designed to get you out of the classroom and on to the test track, a total of six 60-minute structured learning experiences behind the wheel will vividly illustrate the benefits, limitations, and ultimate compromises that must be made when designing and implementing modern brake control systems.
Technical Paper

A new appraisal of the thermomechanical behaviour of a hybrid composite brake disc in a formula vehicle

2019-11-21
2019-28-2572
A new appraisal of the thermomechanical behaviour of a hybrid composite brake disc in a formula vehicle Research Objective This paper presents a hybrid composite brake disc with reduced Un Sprung Weight clearing thermal and structural analysis in a formula vehicle.Main purpose of this study is to analyse thermomechanical behaviour of composite brake disc for a formula vehicle under severe braking conditions. Methodology In the disk brake system, the disc is a major part of a device used for slowing or stopping the rotation of a wheel. Repetitive braking of the vehicle leads to heat generation during each braking condition. Based on the practical understanding the brake disc was remodelled with unique slotting patterns and grooves, using the selected aluminium alloy of (AA8081) with reinforcement particle of Silicon carbide (SiC) and Graphite (Gr) as a hybrid composite material for this proposed work.
Technical Paper

Autonomous Car in India

2019-11-21
2019-28-2522
Automation is expanding in every possible direction and it was only time before it reached the Automobile sector. There has been tremendous traction towards autonomous cars since last 2-3 yrs as a probable solution to reduce accidents and promote safe and comfortable commute. Many companies have expressed their interest in developing some part(s) of it and when would all of this culminate resulting in a fully autonomous car. But as every coin has two aspects so same does automation. This paper covers the future of autonomous cars from Indian perspective, covering possible challenges, complex use cases, advantages, technology enablers, economy outlook etc. India has the dubious honor of ranking first in road deaths in the world at present & accounts for 10 percent of global road accidents with more than 1.46 lakh fatalities annually.
Technical Paper

PMSM motor drive for Electric Vehicle applications

2019-11-21
2019-28-2475
To control air pollution in urban areas and to reduce carbon print in the cities, nowadays EV’s are preferred over IC engine vehicles. Earlier Electric vehicles used DC motor and Induction motors. But Brushless Permanent Magnet motors are preferred over Induction motor for EV’s due to their High Torque density, high-power density and highly efficiency. Prevalent Electric vehicles today have Brushless DC motors. Compared to BLDC, PMSM motor have smoother control and negligible torque ripplesThus, PMSM motor is preferred over BLDC for Electric Vehicle, because of its sinusoidal back emf which results in smoother control, and results into smoother and more comfortable driving experience to users. Methodology Sensor based field-oriented control (FOC) is implemented in 48 V 5kW Interior PMSM motor. . To start the Synchronous motor initial position of the rotor magnetic field should be known.
Technical Paper

Performance & efficiency Improvement of Electric Vehicle Power train

2019-11-21
2019-28-2483
Introduction: The advent of electric mobility is changing the conventional mobility techniques and their application in automobiles across all segments. This development comes with challenges ranging across varied sub -systems in a vehicle including Power Train, HVAC, Accessories, etc. Objective: This paper would concentrate on the Power train related sub systems & improvement of the same both in terms of Efficiency & Performance. Methodology: The electric power train consists of three major sub parts: 1. Motor Unit 2. Controller with Power electronics 3. Battery Pack with BMS We would concentrate on improving the overall efficiency and performance of all these subsystems while they perform in vehicle environment and work in tandem by deploying following techniques: a. Improved Regenerative Braking for converting vehicles Kinetic energy into electrical energy using specific algorithms and control techniques b.
Technical Paper

Design and Development of Industrial Automotive Battery Management system

2019-11-21
2019-28-2498
Battery operated vehicle need accurate management system because of its quick changes in State of charge (SOC) due to aggressive acceleration profiles and regenerative braking. Li-ion battery needs control over its operating area for its safe working. So, the main objective of the proposed system is to develop a BMS having algorithms to estimate accurate SOC, predict degradation parameters, balance individual cells, manage cell temperature, and provide safe area of operation defined by voltage and temperature. Proposed methodology uses Model-based Design approach wherein nonlinear behavior of battery is modeled as Equivalent Circuit Model to compute the SOC and degradation effect on battery to decide the end of life of battery, also performing inductive Active balancing on cells to equalize the charge. proposed algorithms communicate with the vehicle ECU through CAN to assist the driver for runtime estimation, time for battery swapping, Alerts.
Technical Paper

ELECTRIC BICYCLE WITH REGENERATIVE BRAKING SYSTEM

2019-11-21
2019-28-2490
One of the significant challenges in the present scenario is the depletion of fossil fuels. As the use of conventional fuel is increasing day by day, it will lead to the complete depletion of fossil fuel in the future. So, an alternate solution to this problem is the use of electric vehicles which is independent of the dependence on fossil fuels. Electric vehicles (EVs) use batteries to power them and are electric motor driven. One advantage of using these electric vehicles is that they are pollution free and smokeless. One of the critical limitations of these electric vehicles is the low driving range per charge. The main proposal of this paper is the implementation of a regenerative braking system (RBS) which helps in recovering the kinetic energy that gets wasted during braking. RBS will be very useful in hilly terrain areas where much potential energy can get recovered while moving down the hill.
Technical Paper

Combi Brake System (CBS) design and tuning on an electric two wheeler for cornering maneuver

2019-11-21
2019-28-2399
To reduce the number of traffic accidents, most of the governments have mandated to include Combi Brake System (CBS) or Anti-lock Braking System (ABS) in two wheelers. While most of the homologation requirements for CBS can be fulfilled by straight line motion, CBS behavior is crucial while cornering for safety aspects. When vehicle is in cornering motion, the lateral forces generated at the tire decreases the effective longitudinal force available, which implies lesser braking force at tire. This paper represents a design methodology for tuning CBS for various critical scenarios mainly during cornering maneuver. A detailed study has been made at various combination of vehicle lean angle, vehicle speed and friction coefficient of road in straight line and cornering maneuver to effectively decide on front to rear brake force distribution to avoid either of the tires’ lock-up.
Technical Paper

Impact of Vehicle Electrification on Brake Design

2019-11-21
2019-28-2499
Electric vehicles have come full circle from being primary vehicle type in 19th century (much before IC powered vehicles) to 21st century where major stake holders in mobility have announced plans towards vehicle electrification. Apart from battery & powertrain system, braking system is area which will undergo major changes because of vehicle electrification. But Why? Major keywords are regenerative braking, increased vehicle weight, no or insufficient vacuum from engine and silent powertrains. This paper tries to outline potential impact on hydraulic brake system & its component design for M1 and N1 category of four wheelers with advent of vehicle electrification. Needless to say extent of change will vary depending upon extent of electrification and extent of recuperation during regenerative braking. Extent of electrification depends upon whether vehicle is range extender type hybrid vehicle, plug in hybrid vehicle, battery electric vehicle, fuel cell vehicle etc.
Technical Paper

FABRICATION AND WEAR CHARACTERISTICS BASALT FIBER REINFORCED POLYPROPYLENE MATRIX COMPOSITES

2019-11-21
2019-28-2570
Generally brake pads are manufacturing by use of asbestos materials, these materials are chemically harmful and toxic, affects human health. The present investigation fabricates polypropylene composites with mixing constant volume [5 Vol.%] of alumina nano particles and different volume percentages [0%, 5%, 10% & 15%] of basalt fibre by hand layup compression technique. The wear characteristics of polypropylene matrix composites were tested by dry sliding condition using pin on disc apparatus configuration with hardened steel counter-face at elevated temperature. The load was applied 30N to 70N with the interval of 20N and varying of sliding speed 300 rpm to 900rpm with the interval of 300rpm for the time period of 0-180 sec. The wear rate was decreases with addition of alumina nano particle and also increases the frictional force for the effect of basalt fibre content present in the composites. The co-efficient of friction was increases from 0.1 to 0.66 under normal loading condition.
Training / Education

Applied Vehicle Dynamics

2019-10-21
While a variety of new engineering methods are becoming available to assist in creating optimal vehicle designs, subjective evaluation of vehicle dynamics is still required to deliver desired braking, handling, and acceleration attributes. In order to better prepare today’s engineer for this task, this course offers modules devoted to twelve key fundamental principles associated with longitudinal and lateral vehicle dynamics. Each focused classroom session is paired with an on-track exercise to immediately reinforce these concepts with a dedicated behind-the-wheel driving session, effectively illustrating these principles in the real world.
Technical Paper

Design and Testing of Custom Brake Caliper of a Formula Student Race Car

2019-10-11
2019-28-0007
A formula student race car is a car designed and manufactured for speed, performance, and competition. Effective braking is a critical factor for this high performance car. This paper focuses on creating an optimal design of a brake caliper for a formula student race car, selecting a material having high strength to weight ratio considering the ease of manufacturing and low cost and testing it on the race car simulating the actual conditions. The computer-aided design model is created in SolidWorks and is analyzed in ANSYS. The manufactured part is tested by mounting the caliper on the formula student race car to observe the braking performance. The pressure data is logged using a Race Capture Data Logger for a particular run by brake pressure sensor and analysed by GEMS software. The results from the deceleration vs pressure data deviate from the expected results by just 9%, thus validating the design.
Technical Paper

Parametric Calculation and Significance of Engine Dynamic Torque in Performance Benchmarking of a Vehicle

2019-10-11
2019-28-0028
The automotive industries around the globe is undergoing massive transformation towards technological capability to meet stringent legislative norms on fuel economy and emission. It is a challenging process to meet the regulatory standards without compromising on performance. The torque delivered by the engine at wide open throttle position in a transient condition from low idle to higher engine rpm is known as dynamic torque, which always need not to follow the defined FTP curve. The engine dynamic torque plays a crucial part in performance benchmarking of a vehicle as a visualization parameter to set the project targets. There exist a few methodologies to measure the engine brake torque like direct measurement using torque transducer which adds complexity and cost to the vehicle, ECU measured torque based on amount of fuel injection and empirical calculation using known engine speed.
Technical Paper

Exploration of dry sliding wear behaviour of sisal fiber-reinforced Cashew Nut Shell Liquid and epoxy polymer matrix composite as an alternative friction material in automobiles

2019-10-11
2019-28-0173
Brake pad is one of the foremost imperative part in the vehicle. Due to the environmental requirement, natural material/composites were the alternate source for component manufacturing. The composite made using hot press techniques by mixing ingredients such as natural fiber (treated sisal), cashew nut filler, graphite and alumina with resin (cashew nut shell liquid - CNSL and epoxy). Two formulas and four samples of each set were composed by varying the resin type and prepared the test samples with attain better hardness. The main intern of this proposed work is to appraise the dry sliding wear and friction performance of the prepared composites. The composites are taken for tribo test by varying the load of 10,20,30,40 N and sliding distance of 1000, 2000 m respectively. Experiments were performed at stated process parametric conditions to record the responses.
Technical Paper

Surface modification of Aluminium alloy 5083 reinforced with Cr2O3/TiO2 by friction stir process

2019-10-11
2019-28-0179
Surface properties have vital role in overall performance of parts like brake shoe pad. The mechanical and residual stress measurements of aluminium alloy 5083 were investigated on friction stir processed plates using reinforcements of chromium oxide (Cr2O3) and Titanium di oxide (TiO2) separately as well as combination of these powders. A comparative analysis was performed to study the effects of reinforcements and tool type (cylindrical and threaded) keeping the FSP parameters and volume fraction of reinforcements as constant. This investigation shows that there was a significant increase in surface hardness (118 HRC) as well as decrease in residual stress compare to the base metal. This study also reveals that the threaded tool with a reinforcement of Cr2O3 and TiO2 reflected better mechanical properties than the cylindrical tool. The SEM image shows that the even distributions of reinforcement particles are presence in the processed zone.
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