Loads on Aircrafts

Airworthiness

and

Aircraft Loads

13-Mar-14 1 RM

The airworthiness of an a/c is concerned

with safety incorporation/application in all

aspects of its:

construction

operation.

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These range from structural strength to the

provision of certain safeguards in the events

crash landing.

It include design requirements relating to

aerodynamics, performance and electrical

and hydraulic systems.

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Structural aspect of airworthiness of a flying

vehicle depends mainly on:

strength

stiffness

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Strength problems arise from

ground loads

air loads

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Strength problems arise from

ground loads

air loads

and their

magnitude depends on the

selection of maneuvering

other conditions applicable

to the operational requirements of a

particular a/c.

13-Mar-14 6 RM

What is Load Analysis

The task of loads analysis

o Loads analysis largely means establishing

appropriate loads for design and testing

The goal or purpose of loads analysis

o Nearly always to support design or to verify

requirements for designed or built hardware.

13-Mar-14 RM 7

Airplanes loads come from diverse sources.

These include:

Component and payload weight

13-Mar-14 RM 8

Airplanes loads come from diverse sources.

These include:

Component and payload weight

Air loads

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Airplanes loads come from diverse sources.

These include:

Component and payload weight

Air loads:

Lift

Drag

gusts

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Drag Drag

Lift Lift

Mo

CP AC

CP

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Drag Drag

Lift Lift

Mo

CP AC

CP

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Span-wise

Lift

Distribution

Chord-wise

Lift

Distribution

Wing lift distribution

Span-wise

Lift

Distribution

Chord-wise

Lift

Distribution

Span-wise

lift distribution

Chord-wise

lift distribution

13-Mar-14 RM 14

Span-wise

Lift

Distribution

Chord-wise

Lift

Distribution

Wing lift distribution

Span-wise

Lift

Distribution

Chord-wise

Lift

Distribution

Span-wise

lift distribution

Chord-wise

lift distribution

13-Mar-14 RM 15

Airplanes loads come from diverse sources.

These include:

Component and payload weight

Air loads:

lift, drag, gusts

Acoustic loads

13-Mar-14 RM 16

Acoustic Loads

During the lift off and the early phases of the

launch an extremely high level of acoustic

noise surrounds the payload

The principal sources of noise are:

Engine running

Aerodynamic turbulence

Acoustic noise (as pressure waves) affecting

on light weight panel-like structures produce

high response

13-Mar-14 RM 17

Airplanes loads come from diverse sources.

These include:

Component and payload weight

Air loads:

lift, drag, gusts

Acoustic loads

Thermal loads

13-Mar-14 RM 18

Airplanes loads come from diverse sources.

These include:

Component and payload weight

Air loads:

lift, drag, gusts

Acoustic loads

Thermal loads

space

fast vehicles

13-Mar-14 RM 19

Airplanes loads come from diverse sources.

These include:

Component and payload weight

Air loads:

lift, drag, gusts

Acoustic loads

Thermal loads

Landing loads

13-Mar-14 RM 20

Airplanes loads come from diverse sources.

These include:

Component and payload weight

Air loads:

lift, drag, gusts

Acoustic loads

Thermal loads

Landing loads:

touchdown

arresting 13-Mar-14 RM 21

Take-off loads

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Take-off loads:

runway taxi

assisted (e.g. jet/rocket) take-off

catapult

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Catapult

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Take-off loads:

runway taxi, catapult, assisted (e.g.

jet or rocket) take-off

Power plant loads

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Take-off loads:

runway taxi, catapult, assisted (e.g.

jet or rocket) take-off

Power plant loads:

thrust

engine torque

gyroscopic effects

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Gyroscopic effects

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Take-off loads:

runway taxi, catapult, assisted (e.g.

jet or rocket) take-off

Power plant loads:

thrust, engine torque, gyroscopic effects

special loads:

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special loads:

towing

refueling

cargo

weapons recoil

bomb release

missile/rocket fired

blast effects

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Other loads:

cabin pressure

Turbulences

crash safety…

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Flight Loads

Maneuver

Gust

Control deflection

Buffets (winds strike)

Inertia

Vibration

13-Mar-14 RM 31

Ground Loads

Vertical load factor

Braking

Bumps

Turns

Catapult

Arrested landing

Aborted take off

13-Mar-14 RM 32

Spin-up gears

Spring back gears

One wheel/two wheel

Towing

Ground winds

Break away

Other Loads & Conditions

Fatigue

Fall safety

Damage tolerance

Bird strikes

Lightning

Wind milling

13-Mar-14 RM 33

Thermal

Jacking

Pressurization

Power plant

Hail

Ground handling

Principal Aerodynamic loads on an Aircraft

Wings, tail-plane and fuselage are

subjected to:

bending loads

shear loads

torsion loads

and must be designed to withstand

them at minimum weight

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For spacecraft, the following additional loads

are encountered:

Launch loads

boost

orbit transfer

On orbit loads

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Aircraft Mission and Stages

Applied loads depends on the mission of the

aircraft, e.g.:

Transport

Fighter

Aerobatic mission

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The stages during any aircraft mission can be

roughly divided into:

Taxi and take off

Cruising

Maneuver

Landing

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Design loads must be carefully established

for every stage of the aircraft mission.

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The objectives of structural design is to

maintain the shape and integrity of the

aircraft during each part of the mission and

stage.

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Factor of Safety

Flight Envelope

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The a/c designer is constantly seeking to

reduce the a/c weight to a minimum

compatible with safety.

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To ensure general minimum standards of

strength and safety, airworthiness regulations

(CAA) lay down several factors which the

primary structure of the a/c must satisfy.

These are

limit loads

proof loads

ultimate loads

13-Mar-14 42 RM

Limit load is the maximum load that an a/c is

expected to experience in normal operation.

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Limit load is the maximum load that an a/c is

expected to experience in normal operation.

The proof load is product of the limit load

and the proof factor (1 - 1.25)

13-Mar-14 44 RM

Limit load is the maximum load that an a/c is

expected to experience in normal operation.

The proof load is product of the limit load

and the proof factor (1 - 1.25)

Ultimate load is product of limit load and the

ultimate factor (usually 1.5)

13-Mar-14 45 RM

The a/c structure must:

withstand the proof load without

damaging distortion

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The a/c structure must:

withstand the proof load without

damaging distortion

not fail until the ultimate load has

been achieved.

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The proof and ultimate loads may be

regarded as

factors of safety

and provide for various contingencies &

uncertainties etc.

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Factor of safety =

FoS =

MoS = - 1

= FoS - 1

13-Mar-14 50 RM

= Margin of Safety =