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Civil and Geomatics Engineering Laboratory Safety Manual Updated 2019
SEISMIC TABLE Operation in EE185
Seismic Table Safety and Operation
The importance of lab safety cannot be emphasized strongly enough. The lab instructor is ultimately responsible for the students' safety. If you practice lab safety, students will be more willing to do so also.
In almost every state, instructors—as well as the school—are legally liable for student injuries. In case of an accident, being able to prove that lab safety has been taught, and that safety rules are enforced, becomes your legal protection.
Unfortunately the lack of formal safety training and inadequate maintenance procedures could expose you to accidents—and lawsuits. In an effort to help the lab instructor, a safety plan for the above test or experiment has been written below. Although these guidelines carry no legal weight, they can provide instructors with a general overview for lab safety. OVERVIEW During any seismic table testing process, there may be instances when concrete shards or specimen pieces may fall from the structure. In order to reduce exposure to injury for instructor, student and spectators, the following procedures will be in place during the testing procedure. The testing may be stopped at any time if any of the procedures are not followed. WINDOW PROTECTION Some sort of window protection will be required to keep foreign material from penetrating glass in observation decks. This can be either permanent or temporary. CAZ (Controlled Access Zone) The entire main floor of EE185 will be designated as the CAZ. During the testing and immediately afterward, access will be limited only to the MTS operator/Instructor. Only after it has been deemed safe, will observers be allowed in the CAZ.
BARRIER/CAUTION TAPE LOCATION
Barriers or caution tape will be placed at the lab double door to restrict access to the lab from the east. The large rollup door will be opened and used for observation overflow, but caution tape will restrict access to the lab through this door. Access to EE285A, the observation deck, will be via the pedestrian door and up the staircase to the deck. This area will be limited to 20 people, due to egress policies that will be enforced. Once the experiment starts, there should be minimal movement of people to avoid distractions to the operator. When the testing is completed, the instructor will determine if it is safe for access to the main lab floor. EXTENT OF SHAKE Due to the size and weight of the structure under test, the actual shaking will continue until the required frequency and amplitude have been reached. Safety of the students and facility will not be compromised by any additional testing other than the scheduled and predetermined frequency and amplitude. No “shake till it breaks”. EMERGENCY EGRESS In case of a catastrophic failure, the MTS operator/Instructor will have available to him, the emergency abort button for the MTS. After depressing this button, he is to immediately exit area through the west rollup door. There is a reinforced concrete wall for his protection without leaving the general area. NOISE PROTECTION There is no requirement for noise protection; observers will either be out side or behind glass on the second floor observation deck. ADDITIONAL SAFETY PROTECTION The MTS Machine operator/Instructor will be required to have a hard hat and safety glasses on during the testing. Again, observers will be far enough away to not require additional safety measures. AFTER SEISMIC TEST If after the successful test there is visible damage, it will be the responsibility of the MTS Operator/Instructor to determine if the structure is still safe. If it is determined that the structure is unsafe, then the MTS operator/Instructor will make provisions to secure structure until the damaged structure can be safely removed.
IN CASE OF CATASTROPHIC FAILURE
• MSDS Sheets are attached to safety plan (See format below) • MTS Operator/Instructor would determine Emergency call to:
o University Police Department 278-2132 o Fresno Fire Department Dial 9-1-1
CLEANUP
Clean up can be accomplished by placing fluid material in a container and sent to an appropriate waste disposal facility • Hydraulic Fluid can be cleaned up with:
o Fire retardant sawdust o Diatomaceous earth o Sand
Material Safety Data Sheet
SECTION I - Material Identity SECTION II - Manufacturer's Information SECTION III - Physical/Chemical Characteristics SECTION IV - Fire and Explosion Hazard Data SECTION V - Reactivity Data SECTION VI - Health Hazard Data SECTION VII - Precautions for Safe Handling and Use SECTION VIII - Control Measures SECTION IX - Label Data SECTION X - Transportation Data SECTION XI - Site Specific/Reporting Information SECTION XII - Ingredients/Identity Information
SECTION I - Material Identity
Item Name Part Number/Trade Name MOBIL DTE 24 National Stock Number 9150L415823F CAGE Code 3U728
Part Number Indicator A MSDS Number 189169 HAZ Code B
SECTION II - Manufacturer's Information
Manufacturer Name MOBIL OIL CORP Street 3225 GALLOWS ROAD City FAIRFAX State VA Country US Zip Code 22037-0001 Emergency Phone 800-424-9300 CHEMTREC(609-737-4411) Information Phone 800-662-4245 MSDS Preparer's Information
Date MSDS Prepared/Revised 22FEB00 Date of Technical Review 24AUG95 Active Indicator Y Alternate Vendors
SECTION III - Physical/Chemical Characteristics
Specification Number N/R Specification Type/Grade/Class N/R Hazard Storage Compatibility Code N1 NRC License Number N/R Net Propellant Weight (Ammo) N/R Appearance/Odor AMBER LIQUID WITH MILD ODOR Boiling Point >600F,>316C Melting Point NE Vapor Pressure <0.1 Vapor Density >2.0 Specific Gravity 0.874 Decomposition Temperature UNKNOWN Evaporation Rate NA Solubility in Water NEGLIGIBLE Percent Volatiles by Volume N/K Chemical pH NA Corrosion Rate UNKNOWN Container Pressure Code 1 Temperature Code 4 Product State Code L
SECTION IV - Fire and Explosion Hazard Data
Flash Point 396 Lower Explosion Limit NA Upper Explosion Limit NA Extinguishing Media CARBON DIOXIDE, FOAM, DRY CHEMICAL
AND WATER FOG.WATER OR FOAM MAY CAUSE FROTHING. USE WATER TO COOL FIRE EXPOSE CANS
Special Fire Fighting Procedures FOR FIRES IN ENCLOSED AREAS, FIRE FIGHTERS MUST USE SELF-CONTAINED BREATHING APPARATUS. WATER SPRAY MAY BE USED TO FLUSH SPILLS AWAY FROM EXPOSURE
Unusual Fire/Explosion Hazards NOTE: PRESSURIZED MISTS MAY FORM A FLAMMABLE MIXTURE. FLASH POINT:>202C, 396F
SECTION V - Reactivity Data
Stability YES Stability Conditions to Avoid EXTREME HEAT Materials to Avoid STRONG OXIDIZING AGENTS Hazardous Decomposition Products CARBON MONOXIDE, METAL OXIDES,
ELEMENTAL OXIDES Hazardous Polymerization NO Polymerization Conditions to Avoid NONE SPECIFIED BY MANUFACTURER
SECTION VI - Health Hazard Data
Route of Entry: Skin YES Route of Entry: Ingestion YES Route of Entry: Inhalation YES Health Hazards - Acute and Chronic PRODUCT ASSESSED IN ACCORDANCE WITH
OSHA 29 CFR 1910.1200 AND DETERMINED NOT BE TO HAZARDOUS
Carcinogenity: NTP NO Carcinogenity: IARC NO Carcinogenity: OSHA NO Explanation of Carcinogenity NOT CARCINOGENIC Symptoms of Overexposure NO SIGINIFICANT EFFECTS EXPECTED Medical Cond. Aggrevated by Exposure NONE SPECIFIED BY MANUFACTURER Emergency/First Aid Procedures [EYES] FLUSH THOROUGHLY WITH WATER.
IF IRRITATION OCCURS, SEE DOCTOR. [SKIN] WASH WITH SOAP AND WATER. HIGH PRESSURE ACCIDENTAL INJECTION INTO SKIN REQUIRES IMMEDIATE MEDICAL ATTENTION. [INHALATION] NOTEXPECTED TO BE A PROBLEM.
[INGESTED] NOT EXPECTED TO BE A PROBLEM. HOWEVER,GIVE 1-2 GLASSES OF WATER & CALL PHYSICIAN. DO NOT INDUCE VOMITING OR GIVEANYTHING TO AN UNCONSCIOUS PERSON
SECTION VII - Precautions for Safe Handling and Use
Steps if Material Released/Spilled ABSORB ON FIRE RETARDENT TREATED SAWDUST, DIATOMECOUS EARTH, ETC. SHOVEL UP & DISPOSE OF AT AN APPROPIATE WASTE DISPOSAL FACILITY IN ACCORDANCE WITH CURRENT APPLICABLE LAWS AND REGULATIONS & PRODUCT CAHRACTERISTICS AT TIME OF DISPOSAL
Neutralizing Agent NONE SPECIFIED BY MANUFACTURER Waste Disposal Method PRODUCT IS SUITABLE FOR BURNING IN
AN ENCLOSED, CONTROLLED BURNER FOR FUEL VALUE OR DISPOSAL BY SUPERVISED INCINERATION. IN ADDITION, THE PRODUCT IS SUITABLE FOR PROCESSING BY AN APPROVED RECYCLING FACILITY
Handling and Storage Precautions DO NOT STORE IN OPEN OR UNLABELED CONTAINERS. STORE AWAY FROM STRONG OXIDIZING AGENTS OR COMBUSTIBLE MATERIAL
Other Precautions HIGH PRESSURE INJECTION UNDER THE SKIN MAY OCCUR DUE TO RUPTURE OF PRESSURIZED LINES. ALWAYS SEEK MEDICAL ATTENTION
SECTION VIII - Control Measures
Respiratory Protection NO SPECIAL REQUIREMENTS UNDER ORDINARY CONDITIONSOF USE AND WITH ADEQUATE VENTILATION
Ventilation NO SPECIAL REQUIREMENTS UNDER ORDINARY CONDITIONS OF USE AND WITH ADEUQATE VENTILATION
Protective Gloves PRACTICE GOOD HYGIENE Eye Protection NORAM INDUSTRIAL EYE PROTECTION Other Protective Equipment NONE NORMALLY REQUIRED Work Hygenic Practices WASH HANDS AFTER USE AND BEFORE
EATING, DRINKING,OR SMOKING. LAUNDER CONTAMINATED CLOTHES BEFORE REUSE
Supplemental Health/Safety Data NOT REGULATED
SECTION IX - Label Data
Protect Eye YES Protect Skin YES Protect Respiratory YES Chronic Indicator NO Contact Code SLIGHT Fire Code UNKNOWN Health Code UNKNOWN React Code UNKNOWN Specific Hazard and Precaution NO TARGET ORGANS LISTED FOR CHRONIC
EXPOSURES
SECTION X - Transportation Data
SECTION XI - Site Specific/Reporting Information
Volatile Organic Compounds (P/G) 0 Volatile Organic Compounds (G/L) 0
SECTION XII - Ingredients/Identity Information
Ingredient # 01 Ingredient Name (ZNCPD) ZINC CAS Number 7440666 Proprietary NO Percent 0.1 Ingredient # 02 Ingredient Name (ZNCPD) ZINC DIALKLDITHIOPHOSPHATE
INHIBITOR CAS Number 68649423 Proprietary NO Percent 0.67
Also includes
Vickers Pump
Operation !!
MTS Account Information
Site#: 505132
PH #: 800-328-2255
FlexTest SE—4.0D 2008
UPDATED 8-14-16
2
EMERGENCY
CONTACT LIST
Lab Custodians for EE 185 (Structures Lab)
Dr. Nazari Lab Custodian 278-6603
Dr. Larralde Associate Dean 278-2566
Dr. Nunna Administrator 278-8111
Steve Scherer Dept Technician 278-7200
University Police Department 278-8400
3
CIVIL ENGINEERING
LABORATORY SAFETY PLAN
For
EE-185
STRUCTURES LABORATORY
(Supervising Faculty Member: Dr. Nazari)
Students shall conduct themselves in a safe and orderly manner when using this laboratory facility. Practices, which detract from the normal learning environment, shall be avoided. Dis-ruptive behavior, loud sounds or noises, smoking and any other distraction or unsafe action that disrupts the normal learning process will not be tolerated. Food and drink is allowed only in designated area.
Foot wear, which does not provide adequate protection from dropped objects, should be avoided. Similarly, loose fitting clothing that could become caught in the mechanical compo-nents of the testing equipment should not be worn.
Lubricants (if any) and other necessary maintenance materials shall be used only under the direct supervision of a faculty member or authorized technician.
Avoid heavy lifting or prolonged use of computer monitors. Cease work if a headache develops.
Report all injuries to the supervising faculty member.
All serious injuries shall be reported to the department chair. All such injured personnel shall be escorted to the Student Health Center or call 911 and the Student Health Center.
4
MTS System Pre-Start Check List
1. Make sure area around seismic table is clear of
any obstructions and/or debris.
2. Check for any hydraulic fluid leaks at actuator and
accumulator.
3. Insure that there are no abrasions on any of the hy-
draulic lines.
4. Physically verify that the spiral washers (2 sets of
2) are tight and secure and
both yellow lines are still
touching each other.
5. Inspect mechanical connections between the table
and specimen to insure that they are in the proper lo-
cation and secured.
5
Vickers Pump Operation and
Start Up Procedures
6
BEFORE RUNNING PUMP
Ensure that the “OUTPUT PRESSURE” selector (5-6-7) is in the “LOW” (6) position.
Alternate Pump use by switching between both Pumps, Switch (10-11-12) will change pumps to evenly distribute the use between the two Pumps.
Make sure that all three “EMERGENCY STOP” buttons are in the released state, and ensure the “STOP” button on panel (4) is also released.
EMERGENCY STOP BUTTON LOCATIONS
(One at Panel, One at Vickers Pump, one at Console and one remote portable switch)
TO START PUMP
Make sure “RECIRC PUMP” in the “AUTO” (1) position.
Turn “OUTPUT PRESSURE” to “START” (7), and then turn selector to “LOW” (6) and allow pump to run for about 30 seconds in “LOW” (6), after which time selec-tor can be turned to “HIGH”(5).
To add second pump, turn “PUMP SELECTOR” to “BOTH” (11).
TO TURN OFF PUMP
Turn “OUTPUT PRESSURE” to “LOW” (6).
Press “STOP” (4) button and leave button depressed.
NOTE: If “FILTER DIRTY” (8) light comes on, system can be “RESET” (9), notify Technician if the light comes on just in case the light was caused by something else.
7
Starting up System
The login for the computer is “administrator” password is “admin”. There is also a password that is required to load the firmware and for any updates. This is usually done by the MTS Technician or by the Department Technician. This account is used only for upgrades and loading of firmware. The other passwords required to get into Tuning, Configuration, and Calibration will be addressed later.
Do not change any parameters in the “Network Settings”
Do not delete the “MTS_RT Account as this contains all the con-necting information from the computer to the MTS FLEX SE box.
System Loader and Station Manager and
Station Builder Icons
NOTE: PC must be up and running pr ior to starting the MTS FLEX-SE Controller. The On/Off switch for the MTS is on the back of control-ler. (System Loader must be loaded only the first time the computer is turned on.) Then Station Manager should be loaded.
8
Open Configuration ( In System Manager)
Under Configuration is a file called ftse.cfg, this is the file that
configures the Table Operation. Choose an existing Parameter Set
to use or to modify, just remember to “Save As” and do not write
over the original Parameter Set.
9
Station Manager
You can have the same configuration with different parameters, but each set of parameters must be saved in its own file. Examples are:
Tuned for a specific mass
Tuned for the table only with no mass present.
Windows for a specific Researcher.
10
Software Operation
1. Check Box marked “Exclusive Control” , if you do not check it the computer will not have control of the MTS.
2. The system incorporates interlock circuitry that allows for the ces-sation of a test if there is a system malfunction or operator error. Check Box marked “Reset Interlock 1”
3. Observe/Change limits of the Table:
3-1. Display/Station Setup
3-2. Channels
A. Stroke-Displacement limits set to 5”
B. Load-Force limits set to 55kips
3-3. If tuning is required, change from Operation to Tuning (Password “Tuning”), Then select parameters from “Tuning Fork”
11
Valve Tuning
4. Check valve response by metering output and spool position.
4-1. Display and Meters
4-2. Pull up Load, Stroke, Output, Spool Position, and
Command as shown below:
4-3. If it is a well-balanced Valve, Spool Position should be at
zero. Note: To get Spool Position to zero, valve tuning is
needed!
4-4. Stroke and Command should be equal, to have the output
(voltage to 5v) = 0.
This is for better performance of the Valve (Error=0).
If Stroke doesn't equal Command, manually match them
by clicking Manual Command on Station Controls.
First Enable then match Stroke and Command, then
Disable, Close Manual Command Box.
Output Spool
Position
Command Stroke
Load
12
Valve Tuning (cont’d)
4-5. Click on Function Generator (top cell; left side)
Command: Cyclic
Set Frequency and Amplitude
Display/Scope/Plot Output vs Spool Position
Basic Testware Run
Make sure there is min- imum 0ft set between Output
and Spool Position
NOTE: Contaminated hydraulic fluid may affect this
Valve signal.
Change Amplitude of Cyclic Load to monitor difference,
if any.
Basic Testware Pause
Table Warm-up
5. HSM1 Low (wait for a few seconds) High
This will turn on the table and allow the hydraulic fluid to warm up
to operating temperature.
Table Tuning 6. There are two types of tuning Classic and Earthquake Application 6-1. Classic Tuning Function Generator Command: Cyclic Wave Shape: Squared Taper Amplitude: 0.05 Frequency: 0.1 Hz
13
Table Tuning (cont’d) 6-2. Earthquake Application
Function Generator
Command: Random
Wave Shape: Random 1/F2 (for displacement control)
or
Wave Shape: Random Flat and Sm Acc Control
Note: Frequency Range for Tuning: 0.5-25 Hz (smaller
frequency range results in better data)
6-3. Basic Testware Run
6-4. Using either #6-1 or #6-2 then enter:
Display/Scope
Plot Command vs Stroke
(Note: Minimum offset should be observed)
Change Gain Factors (P/J/D/F) for Tuning:
(Display/Stut12 set-up).
(Note: Generally larger P-Gain and smaller D-Gain fac
tors result in sharper response. Also, larger P-Gain fac
tors result in more unstable results.
Table is now Tuned
6-5. Stop
14
Table Testing (Apply Eq Record) 7. There are two types of tuning Classic and Earthquake Application
7-1. Application– Multi-Purpose Test
7-2. Procedure Editor–Used to create a New Procedure
7-3. Drag and Drop:
a. Data Acquisition (Table Sensors)
b. Record (Profile Command)
a. Using Timing (For Equalizer Applications)
b. Select Record (Blank Format File)
7-4. Multi-Purpose Test (MPT) for new specimens
7-5. Application/ Profick Editor
a. Open (Find the Eq that was run)
b. Open Graphical Preview
The above a and b used to Plot and see Record
15
16
FIELD DESCRIPTIONS
Function Generator (A), allows for control of seismic table.
“Initiate Exclusive Control” (C). This allows total control from this location.
Manual Control, Enable Manual Control (B), insure that Control Mode is “Stroke”.
“Reset Interlock 1” (D), this resets all safety Inter locks and Over-rides.
HSM (E) must be ramped up from One Bar to Two Bars to Three Bars in order to get maximum flow from the hydraulic system.
17
Amplitude (F), this is the distance that the table will travel, usual-ly start this at ½ inch.
Frequency (G), this will tell the MTS how many cycles per second to operate at, start at about 1 HZ.
Start Triangle on Basic TestWare (H) to star t table, to stop check square.
After stopping test, set both Amplitude and Frequency back to
18
19
20
The hydraulic supply system has a ca-
pacity of delivering 110 gallons per mi-
nute at 55,000 pounds of force, and can
move the 10,000 pound table +/- 5 inches
to simulate an earthquake