- Part variety test. Can the system process different part styles in a non-batch mode?
- Schedule change test. …
- Error recovery test. …
- New part test.
Which flexibility is included in FMS?
FMS: Two Categories of Flexibility
The flexibility of a FMS typically falls into two categories:
machine flexibility
and routing flexibility. Machine flexibility refers to the system's ability to produce new types of products, and its ability to change the order in which operations are executed.
What is FMS define flexibility and its types?
Routing Flexibility –
The alternative path that a part can effectively follow through a system for a given process plan
. Volume Flexibility – Measure of a system's capability to be operated profitably at different volumes of existing a part type. Expansion Flexibility – Ability to build a system and expand.
What are the different types of flexible manufacturing system?
- Sequential FMS.
- Random FMS.
- Dedicated FMS.
- Engineered FMS.
- Modular FMS.
Which are four Flexibility check test for FMS system?
The following are four reasonable tests of flexibility in an automated manufacturing system:
Part variety test
. Can the system process different part styles in a nonbatch mode?. Schedule change test. Can the system readily accept changes in production schedule, and changes in either part mix or production quantity.
Which is not benefit of FMS?
FMS (Flexible manufacturing system) is
not suitable if production quantity is less
. Explanation: FMS (Flexible manufacturing system) is not suitable if production quantity is less.
What are the main FMS components?
there are several basic components of an FMS:
(1) workstations, (2) material handling and storage system, and (3) computer control system
. In addition, even though an FMS is highly automated, (4) people are required to manage and operate the system.
What are types of flexibility?
There are two types of flexibility exercises:
static stretching
, in which you stretch a muscle without moving, and dynamic stretching, which combines stretching with movements.
Which is the simplest type of FMS layout Mcq?
| (a) In-line FMS layout | (b) Loop FMS layout | (c) Ladder FMS layout | (d) Open field FMS layout |
|---|
What are the objectives of FMS?
OBJECTIVES OF FMS
Stated formally, the general objectives of an FMS are
to approach the efficiencies and economies of scale normally associated with mass production
, and to maintain the flexibility required for small- and medium-lot-size production of a variety of parts.
What does FMS stand for?
| Acronym Definition | FMS Financial Management Service | FMS Foreign Military Sales | FMS Flight Management System | FMS Federation of Management Systems |
|---|
What is a flexible cell?
A flexible manufacturing cell (hereafter abbreviated to FMC), which consists of a machining device (usually NC machine), an automated workpiece-handling device, and a monitoring device, is
a basic manufacturing unit
and can operate independently in a job-shop-type manufacturing system.
What do you mean by flexibility in FMS?
A
flexible manufacturing system
(FMS) is a manufacturing system in which there is some amount of flexibility that allows the system to react in case of changes, whether predicted or unpredicted. This flexibility is generally considered to fall into two categories, which both contain numerous subcategories.
What is flexible manufacturing system example?
Flexible Manufacturing Module (FMM). Example :
a NC machine, a pallet changer and a part buffer
; … Example : Two FMCs, a FMM and two AGVs which will transport parts from a Part Loading area, through machines, to a Part Unloading Area; Flexible Production Systems (FPS).
What are the disadvantages of flexible manufacturing system?
Disadvantages of FMS include
its higher upfront costs and the greater time required to design the system specifications for a variety of future needs
. There also is a cost associated with the need for specialized technicians to run, monitor, and maintain the FMS.
What is flexible transfer line?
Flexible transfer lines or mixed-model assembly lines are
capable of diversified small-lot production due to negligible switch-over costs
. With these lines, it is possible to implement just-in-time (JIT) production, which involves producing only the necessary parts in the necessary quantities at the necessary times.
